{"id":14,"date":"2017-07-07T20:21:07","date_gmt":"2017-07-07T20:21:07","guid":{"rendered":"http:\/\/utsaengineer.wpengine.com\/faculty-page-example\/?page_id=14"},"modified":"2025-11-04T21:35:24","modified_gmt":"2025-11-05T03:35:24","slug":"publications","status":"publish","type":"page","link":"https:\/\/ceid.utsa.edu\/gjacobs\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

 <\/p>\n\n\n\n\n\n\n\n
\u00a0Refereed Publications<\/a><\/td>\n269<\/td>\n<\/tr>\n
\u00a0Presentations and Non-Refereed Publications<\/a><\/td>\n189<\/td>\n<\/tr>\n
\u00a0U.S. Patents<\/a> \u00a0 <\/a><\/td>\n4<\/td>\n<\/tr>\n
\u00a0Citations (as of 11\/2025 according to <\/span>Google Scholar)<\/a><\/span><\/td>\n19221<\/td>\n<\/tr>\n
\u00a0h-index \/ i10 index (as of 11\/2025 according to <\/span>Google Scholar)<\/a><\/span><\/td>\n76 \/ 226<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n

REFEREED PUBLICATIONS<\/strong><\/p>\n

269.\u00a0Megafu, D., Martinelli, M., Qian, D., Hocaoglu, Y., Jacobs, G., \u201cSteam reforming of methanol over Li-doped Pt\/m-ZrO2<\/sub>,\u201d\u00a0Applied Catalysis A <\/i>707 (2025) 120532 (14 pp).\u00a0https:\/\/doi.org\/10.1016\/j.apcata.2025.120532<\/a><\/p>\n

268. Rabelo-Neto, R.C., da Silva Grangeiro, A.P., de C\u00e1ssia Colman Sim\u00f5es, R., Gnanamani, M.K., Martinelli, M., Qian, D., Noronha, F.B., Jacobs, G., \u201cCO2<\/sub>\u00a0hydrogenation over K-promoted Fe-catalysts derived from Mg-Al-Fe quintinite-like layered double hydroxide precursor,\u201d\u00a0ChemCatChem<\/i>\u00a0e00935 (2025) 15 pages.\u00a0https:\/\/doi.org\/10.1002\/cctc.202500935<\/a><\/p>\n

267. Ma, W., Yang, J., Jacobs, G., Qian, D., \u201cFischer-Tropsch synthesis: Effect of CO conversion over Ru\/NaY catalyst,\u201d\u00a0Reactions<\/i>\u00a06<\/b>(2) (impact factor: 2.2<\/i>), MDPI, (Special Issue titled \u201cFischer-Tropsch Synthesis: Bridging Carbon Sustainability,\u201d Guest Eds. Y.Yao, J. Gorimbo) (2025) 31 (18 pages). https:\/\/doi.org\/10.3390\/reactions6020031<\/a><\/p>\n

266. Resasco, J., Faria Albanese, J., Alvarez, W.E., Crossley, S., Haller, G.L., Jacobs, G., Lercher, J., Li, G., Lobban, L., Noronha, F.B., Pilar Ruiz, M., Sooknoi, T., Wang, B., \u201cA Career in Catalysis: Daniel Resasco,\u201d\u00a0ACS Catalysis<\/i>\u00a0(impact factor: 11.7)<\/i>\u00a015<\/b>\u00a0(2025) 7613-7645.\u00a0https:\/\/doi.org\/10.1021\/acscatal.5c00759<\/a><\/p>\n

265. McFee, B., Martinelli, M., Qian, D., Macfarlane, P., Marin, F.P., Jacobs, G., \u201cImpact of K on the basicity and selectivity of Pt\/m-ZrO<\/span>2<\/sub>\u00a0catalysts for methanol steam reforming with co-fed H2,\u201d\u00a0<\/span>Catalysts (impact factor: 3.8)<\/i>, MDPI (Special Issue titled \u201cCatalytic Processes for Green Hydrogen Production,\u201d Guest Eds., D. Luna, V. Montes) <\/span>15 <\/b>(5) (2025) 435 (21 pages). <\/span>https:\/\/doi.org\/10.3390\/catal15050435<\/a><\/p>\n

264. Almeida, M.P., Mattos, L.V., Walker, S., Ayala, M., Watson, C.D., Jacobs, G., Rabelo-Neto, R.C., Akri, M., Paul, S., Noronha, F.B., \u201cUnveiling the effect of support on the mechanism of CO<\/span>2<\/sub> hydrogenation over supported Ru catalysts,\u201d <\/span>Applied Catalysis B: Environment and Energy<\/em>\u00a0<\/span>365<\/strong> (2025) 124986.\u00a0 <\/span>https:\/\/doi.org\/10.1016\/j.apcatb.2024.124986<\/a><\/u><\/div>\n
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263. Leguizam\u00f3n Le\u00f3n Ribeiro, M.Z., Souza, J.C., Ferreira, I.G., Gnanamani, M.K., Martinelli, M., Jacobs, G., Ribeiro, M.C., \u201cSurface chemical effects on Fischer-Tropsch iron oxide catalysts caused by alkali ion (Li, Na, K, Cs) doping,\u201d Catalysts <\/em>14<\/strong> (2024) 682, 21 pp. https:\/\/doi.org\/10.3390\/catal14100682<\/a><\/p>\n

262. Ayodele, O.B., Jacobs, G., \u201cDetailed quantitative XAS investigation revealed single-atom Pt interacting with partly reduced CuO\u03b1<\/sub> (\u03b1 < 1) as favourable local structure for acetylene semihydrogenation,\u201d Chem. Eng. J.<\/em> 498<\/strong> (2024) 155168. https:\/\/doi.org\/10.1016\/j.cej.2024.155168<\/a><\/p>\n

261. de Souza Garrido, G.; Ribeiro Francisco, L.; Rabelo-Neto, R.C., Xing, Y.T., Munera, J., Marcelle, J., Jacobs, G., Noronha, F.B., \u201cThe role of vanadium oxide species on the performance of Pd\/VOX<\/sub>\/SiO2<\/sub> catalysts for HDO of phenol,\u201d Journal of Catalysis<\/em> 425<\/strong> (2023) 155-169.\u00a0 https:\/\/doi.org\/10.1016\/j.jcat.2023.06.016<\/a><\/p>\n

260. Martinelli, M.; Marcelle, J.; Cronauer, D.C.; Kropf, A.; Jacobs, G., \u201cIsotope effect in formaldehyde steam reforming gives insight into chemical promotion by alkalis in Pt\/m-ZrO2<\/sub> catalysts,\u201d Catalysis Communications<\/em> 178<\/strong> (2023) 106668.\u00a0https:\/\/doi.org\/10.1016\/j.catcom.2023.106668<\/a><\/p>\n

259. Seuser, G.; Staffel, R.; Hocaoglu, Y.; Upton, G.F.; Garcia, E.S.; Cronauer, D.C.; Kropf, A.J.; Martinelli, M.; Jacobs, G., \u201cCO2<\/sub> hydrogenation: Na doping promotes CO and hydrocarbon formation over Ru\/m-ZrO\u00ad2<\/sub> at elevated pressures in gas phase media,\u201d Nanomaterials <\/em>13<\/strong> (2023) 1155. https:\/\/doi.org\/10.3390\/nano13071155<\/a><\/p>\n

258. Seuser, G., Martinelli, M., Garcia, E.S., Upton, G.F., Ayala, M., Villarreal, J., Rajabi, Z., Cronauer, D.C., Kropf, A.J., Jacobs, G., \u201cReverse water-gas shift: Na doping of m-ZrO2<\/sub> supported Pt for selectivity control,\u201d Appl. Catal. A: General<\/em>, 650<\/strong> (2023) 119000. https:\/\/doi.org\/10.1016\/j.apcata.2022.119000<\/a><\/span><\/p>\n

257. Lawson, S., Baamran, K., Newport, K., Garcia, E., Jacobs, G.<\/strong>, Rezaei, F., Rownaghi, A.A., “Adsorption-enhanced bifunctional catalysts for in situ CO2<\/sub> capture and utilization in propylene production: a proof-of-concept study,” ACS Catal.<\/em> 12<\/strong> (2022) 14264\u221214279.\u00a0 https:\/\/doi.org\/10.1021\/acscatal.2c04455<\/a><\/p>\n

256. Martinelli, M., Garcia, E.S., Rajabi, Z., Watson, C.D., Kropf, A.J., Cronauer, D.C., Jacobs, G.<\/strong>, \u201cNa promotion of Pt\/m-ZrO2<\/sub> catalysts for the steam reforming of formaldehyde,\u201d Catalysts<\/em> (MDPI) 12<\/strong> (2022) 1294 (21 pages). https:\/\/doi.org\/10.3390\/catal12111294<\/a><\/p>\n

255. Rajabi, Z., Martinelli, M., Upton, G.F., Watson, C.D., Cronauer, D.C., Kropf, A.J., Jacobs, G.<\/strong> \u201cLow temperature ethanol steam reforming: Selectivity control with lithium doping of Pt\/m-ZrO2<\/sub>,\u201d Catalysis Today<\/em> 402<\/strong> (2022) 335-349.\u00a0 https:\/\/doi.org\/10.1016\/j.cattod.2022.06.018<\/a><\/p>\n

254. Rabelo-Neto, R.C., Almeida, M.P., Silveira, E.B., Ayala, M., Watson, C.D., Villarreal, J., Cronauer, D.C., Kropf, A.J., Martinelli, M., Noronha, F.B., Jacobs, G.<\/strong>, “CO2<\/sub> hydrogenation: selectivity control of CO versus CH4<\/sub> achieved using Na doping over Ru\/m-ZrO2<\/sub> at low pressure,” Appl. Catal. B: Environ. <\/em>303<\/strong> (2022) 121533. https:\/\/doi.org\/10.1016\/j.apcatb.2022.121533<\/a><\/p>\n

253.\u00a0 Rajabi, Z., Martinelli, M., Watson, C.D., Cronauer, D.C., Kropf, A.J., Jacobs, G.<\/strong>, “Lithium promotion of Pt\/m-ZrO2<\/sub> catalysts for low temperature water-gas shift,” International Journal of Hydrogen Energy<\/em> 47<\/strong> (2022) 30872-30895.\u00a0 https:\/\/doi.org\/10.1016\/j.ijhydene.2022.03.022<\/a><\/p>\n

252. Lawson, S., Baamran, K., Newport, K., Alghamadi, T., Jacobs, G.<\/strong>, Rezaei, F., Rownaghi, A.A., “Integrated direct air capture and oxidative dehydrogenation of propane with CO2<\/sub> at isothermal conditions,” Applied Catalysis B: Environmental<\/em> 333<\/strong> (2022) 120907. https:\/\/doi.org\/10.1016\/j.apcatb.2021.120907<\/a><\/p>\n

251. Leguizam\u00f3n Le\u00f3n Ribeiro, M.Z., Souza, J.C., Gnanamani, M.K., Martinelli, M., Upton, G.F., Jacobs, G.<\/strong>, Ribeiro, M.C., “Fischer Tropsch synthesis: effect of promoter\u00b4s ionic charge and valence level energy on activity,” Reactions<\/em>, MDPI (Special Issue titled “Catalytic Conversion of Carbonaceous Materials to Fuels and Chemicals,” Guest Ed. W. Ma, A.K. Dalai), 2<\/strong> (2021) 408-426. https:\/\/doi.org\/10.3390\/reactions2040026<\/a> (registering DOI)<\/p>\n

250. Ma, W., Kang, J., Jacobs, G., Hopps, S.D., Davis, B.H., \u201cHydrocracking of octacosane and cobalt Fischer-Tropsch wax over nonsulfided NiMo and Pt-based catalysts,\u201d Reactions, MDPI (Special Issue titled \u201cCatalytic Conversion of Carbonaceous Materials to Fuels and Chemicals,\u201d Guest Ed. W. Ma, A.K. Dalai), 2<\/strong> (2021) 374-390.\u00a0\u00a0 https:\/\/doi.org\/10.3390\/reactions2040024<\/a>\u00a0(registering DOI)<\/p>\n

249. Rajabi, Z., Jones, L., Martinelli, M., Qian, D., Cronauer, D.C., Kropf, A.J., Watson, C.D., Jacobs, G., \u201cInfluence of Cs promoter on ethanol steam-reforming selectivity of Pt\/m-ZrO2 catalysts at low temperature,\u201d Catalysts, MDPI (Special Issue titled \u201cTransition Metal Catalysis for Biomass Transformation and Green Energy Production\u201d, Guest Ed. S. Campisi, S. Capelli and S. Cattaneo), 11<\/strong> (9) (2021) 1104 (22 pp.). https:\/\/doi.org\/10.3390\/catal11091104<\/a><\/p>\n

248. Teles, C., Magalhaes de Souza, P., Rabelo-Neto, R., Teran, A., Jacobs, G., Resasco, D.E., Noronha, F.B.,\u201d Hydrodeoxygenation of lignin-derived compounds mixtures on Pd supported on various oxides,\u201d ACS Sustainable Chemistry & Engineering 9<\/strong> (38) (2021) 12870-12884.\u00a0https:\/\/doi.org\/10.1021\/acssuschemeng.1c03720<\/a><\/p>\n

247.\u00a0\u00a0Martinelli, M., Garcia, R., Watson, C.D., Cronauer, D.C., Kropf, A.J., Jacobs, G., \u201cPromoting the selectivity of Pt\/m-ZrO2 ethanol steam reforming catalysts with K and Rb dopants,\u201d Nanomaterials, MDPI\u00a0\u00a0(Special Issue titled \u201d Tuning the Physicochemical Properties of Nanostructured Materials through Advanced Preparation Methods, Guest Ed.: J. Vakros, Ed. S. Freakley)\u00a0 11 <\/b>(9) (2021) 2233 (24 pp.).\u00a0https:\/\/doi.org\/10.3390\/nano11092233<\/a><\/p>\n

246. Mehrbod, M., Martinelli, M., Watson, C.D., Cronauer, D.C., Kropf, A.J., Jacobs, G., \u201cFischer-Tropsch synthesis: characterization and testing of Pt-Co\/SiO2<\/sub>\u00a0catalysts prepared with alternative cobalt precursors,\u201d\u00a0Reactions, MDPI (<\/em>Special Issue titled \u201cCatalytic Conversion of Carbonaceous Materials to Fuels and Chemicals\u201d)\u00a0<\/em>2<\/strong>\u00a0(2021) 129-160. (doi: 10.3390) (https:\/\/www.mdpi.com\/2624-781X\/2\/2\/11)<\/a><\/p>\n

245. Rajabi, Z., Martinelli, M., Watson, C.D., Cronauer, D.C., Kropf, A.J., Jacobs, G., \u201cInfluence of Cs loading on Pt\/m-ZrO2<\/sub>\u00a0water-gas shift catalysts,\u201d\u00a0Catalysts<\/em>, MDPI (special issue titled \u201cCO and CO2<\/sub> Conversion over Heterogeneous Catalysts\u201d) 11<\/strong> <\/b>(2021) 570, 25 pp.\u00a0 https:\/\/doi.org\/10.3390\/catal11050570<\/a><\/p>\n

244. Alvez, L.M.N.C., Almeida, M.P., Ayala, M., Watson, C.D., Jacobs, G., Rabelo-Neto, R.C., Noronha, F.B., Mattos, L.V., \u201cCO2<\/sub>\u00a0methanation over metal catalysts supported on ZrO2<\/sub>: Effect of the nature of the metallic phase on catalytic performance,\u201d\u00a0Chemical Engineering Science<\/em>\u00a0239<\/strong>\u00a0(2021) 116604.\u00a0https:\/\/doi.org\/10.1016\/j.ces.2021.116604<\/a><\/p>\n

243. Teles, C.A., de Souza, P.M., Rabelo-Neto, R.C., Teran, A., Jacobs, G.<\/strong>, Resasco, D.E., Noronha, F.B., “Reaction pathways for the HDO of guaiacol over Pd supported catalysts: effect of support type in the deoxygenation of hydroxyl and methoxy groups,” Molecular Catalysis<\/em> 523<\/strong> (2022) 111491, https:\/\/doi.org\/10.1016\/j.mcat.2021.111491<\/a>.<\/p>\n

242. Watson, C.D., Martinelli, M, Cronauer, D.C., Kropf, A.J., and Gary Jacobs \u201cLow temperature water-gas shift: enhancing stability through optimizing Rb loading on Pt\/ZrO2<\/sub>,\u201d\u00a0Catalysts<\/em>, MDPI (Special Issue on Water-gas Shift Catalysts) 11 (2021) 210, 30 pp..\u00a0https:\/\/doi.org\/10.3390\/catal11020210<\/a><\/p>\n

241. Martinelli, M., Castro, J.D., Alhraki, N., Matamoros, M.E., Kropf, A.J., Cronauer, D.C., Jacobs, G., \u201cEffect of sodium loading on Pt\/ZrO2<\/sub>\u00a0during ethanol steam reforming,\u201d\u00a0Applied Catalysis A: General<\/em>\u00a0610<\/strong>\u00a0(2021) 117947.\u00a0https:\/\/doi.org\/10.1016\/j.apcata.2020.117947<\/a><\/p>\n

240. Martinelli, M., Gnanamani, M.K., LeViness, S. Jacobs, G, Shafer, W.D., \u201cAn overview of Fischer-Tropsch Synthesis: XtL processes, catalysts and reactors,\u201d\u00a0Applied Catalysis A: General<\/em>\u00a0608<\/strong>\u00a0(2020) 117740.\u00a0https:\/\/doi.org\/10.1016\/j.apcata.2020.117740<\/a><\/p>\n

239. Shafer, W.D. and Jacobs, G.,\u00a0Iron and Cobalt Catalysts<\/u>, MDPI publishing, Basel, Switzerland, 2020, 414 pp. ISBN 978-3-03928-388-0 (Pbk), ISBN 978-3-03928-389-7 (download the\u00a0PDF<\/a>).(See on\u00a0Twitter<\/a>)<\/p>\n

238. Gnanamani, M.K., Garcia, R., Jacobs, G., Gora-Marek, K., Cronauer, D.C., Kropf, A.J., Marshall, C.L., \u201cEffect of pretreatment conditions on acidity and dehydration activity of CeO2<\/sub>-MeOX<\/sub>\u00a0catalysts,\u201d Applied Catalysis A: General,\u00a0602<\/strong>\u00a0(2020) 117722.\u00a0\u00a0https:\/\/doi.org\/10.1016\/j.apcata.2020.117722<\/a><\/p>\n

237. Teles, C.A.; Rabelo-Neto, R.C., Duong, N., Quiroz, J., Camargo, P.H.C., Jacobs, G., Resasco, D.E., Noronha, F.B., \u201cRole of the metal-support interface in the hydrodeoxygenation reaction of phenol,\u201d Applied Catalysis B: Environmental\u00a0277<\/strong>\u00a0(2020) 119238.\u00a0https:\/\/doi.org\/10.1016\/j.apcatb.2020.119238<\/a><\/p>\n

236. Jalama, K., Ma, W., Jacobs, G., Sparks, D.E., Qian, D., Davis, B.H., \u201cFischer-Tropsch synthesis over Pt\/Co\/Al2<\/sub>O3<\/sub>\u00a0catalyst: Improvement in catalyst stability by activation with diluted CO,\u201d\u00a0Applied Catalysis A: General<\/em>\u00a0602<\/strong>\u00a0(2020) 117645.\u00a0https:\/\/doi.org\/10.1016\/j.apcata.2020.117645<\/a><\/p>\n

235. Ma, W., Jacobs, G., Qian, D., Ji, Y., Klettlinger, J.L.S., Hopps, S.D., Davis, B.H., \u201cFischer-Tropsch synthesis: Synergistic effect of hybrid Pt-Cd additives on a 15%Co\/Al2<\/sub>O3<\/sub>\u00a0catalyst,\u201d\u00a0Applied Catalysis A: General<\/em>\u00a0600<\/strong>\u00a0(2020) 117610.\u00a0https:\/\/doi.org\/10.1016\/j.apcata.2020.117610<\/a><\/p>\n

234. Watson, C.D., Martinelli, M., Cronauer, D.C., Kropf, A.J., Marshall, C.L., Jacobs, G., \u201cLow temperature water-gas shift: Optimization of K loading on Pt\/m-ZrO2<\/sub>\u00a0for enhancing CO conversion,\u201d Applied Catalysis A: General 598 (2020) 17 pp.\u00a0https:\/\/doi.org\/10.1016\/j.apcata.2020.117572<\/a><\/p>\n

233. Martinelli, M., Karuturi, S.C., Garcia, R., Watson, C.D., Shafer, W.D., Cronauer, D.C., Kropf, A.J., Marshall, C.L., Jacobs, G., \u201cSubstitution of Co with Ni in Co\/Al2<\/sub>O3<\/sub>\u00a0catalysts for Fischer-Tropsch synthesis,\u201d\u00a0Catalysts<\/em>, MDPI publisher, 10 (2020) 334, 28 pp.\u00a0https:\/\/doi.org\/10.3390\/catal10030334<\/a><\/p>\n

232. Mehrbod, M., Martinelli, M., Castro, J.D., Alhraki, N., Cronauer, D.C., Kropf, A.J., Marshall, C.L., Jacobs, G., \u201cFischer-Tropsch synthesis:\u00a0 direct cobalt nitrate reduction of promoted Co\/Al2<\/sub>O3<\/sub>\u00a0catalysts,\u201d\u00a0Catalysis Today,\u00a0369<\/strong>\u00a0(2021) 129 \u2013 143.\u00a0\u00a0<\/em>https:\/\/doi.org\/10.1016\/j.cattod.2020.03.033<\/a><\/p>\n

231. L\u00f3pez-Tinoco, J., Mendoza-Cruz, R., Baz\u00e1n-D\u00edaz, L., Karuturi, S.C., Martinelli, M., Cronauer, D.C., Kropf, A.J., Marshall, C.L., Jacobs, G., \u201cThe preparation and characterization of Co-Ni nanoparticles and the testing of a heterogenized Co-Ni\/alumina catalyst for CO hydrogenation,\u201d\u00a0Catalysts (impact factor: 3.444)<\/em>, MDPI publisher, 10 (2020) 18 (28 pages).\u00a0https:\/\/doi.org\/10.3390\/catal10010018<\/a><\/p>\n

230. Martinelli, M., Alhraki, N., Castro, J.D., Matamoros, M.E., Jacobs, G., \u201cEffect of Na loading on Pt\/ZrO2<\/sub>\u00a0catalysts for low temperature water-gas shift for the production and purification of hydrogen,\u201d Elsevier book chapter (Eds. S. Nanda, D.-V. Vo, P. N. Tri), New Dimensions in Production and Utilization of Hydrogen, 2020.\u00a0ISBN: 9780128195536<\/a>.<\/p>\n

229.\u00a0 de Souza, P.M., Inoc\u00eancio, C.V.M., Perez, V, Rabelo-Neto, R.C., Gon\u00e7alves, V.O.O, Jacobs, G., Richard, F., da Silva, V.T., Noronha, F.B., \u201d Hydrodeoxygenation of phenol using nickel phosphide catalysts. Study of the effect of the support,\u201d\u00a0Catalysis Today<\/em>,\u00a0356<\/strong>\u00a0(2020) 366-375.\u00a0https:\/\/doi.org\/10.1016\/j.cattod.2019.08.028<\/a><\/p>\n

228.\u00a0 Martinelli, M., Watson, C.D., Jacobs, G., \u201cSodium doping of Pt\/m-ZrO2<\/sub>\u00a0promotes C-C scission and decarboxylation during ethanol steam reforming,\u201d International Journal of Hydrogen Energy, 45 (2020) 18490-18501.\u00a0https:\/\/doi.org\/10.1016\/j.ijhydene.2019.08.111<\/a><\/p>\n

227.\u00a0 Ma, W., Jacobs, G.,<\/strong>\u00a0Sparks, D.E., Todic, B., Bukur, D.B., Davis, B.H., \u201cQuantitative comparison of iron and cobalt based catalysts for the Fischer-Tropsch synthesis under clean and poisoning conditions,\u201d\u00a0Catalysis Today<\/em>,\u00a0343<\/strong>\u00a0(2020) 125-136.\u00a0https:\/\/doi.org\/10.1016\/j.cattod.2019.04.011<\/a><\/p>\n

226.\u00a0 Ma., W, Jacobs, G., Shafer, W.D., Ji., Y., Klettlinger, J.L.S., Khalid, S., Hopps, S.D., Davis, B.H., \u201cFischer-Tropsch synthesis: Cd, In and Sn Effects on a 15%Co\/Al2O3 catalyst,\u201d Catalysts9 (2019) 862, 16 pp.\u00a0\u00a0https:\/\/doi:10.3390\/catal9100862<\/p>\n

225.\u00a0 Williams, H., Gnanamani, M.K., Jacobs, G., Shafer, W.D., Coulliette, D., \u201cFischer\u2013Tropsch Synthesis: Computational sensitivity modeling for series of cobalt catalysts,\u201d Catalysts, MDPI, Catalysts 9 (2019) 857, 12 pp. https:\/\/doi:10.3390\/catal9100857<\/p>\n

224.\u00a0 Shafer, W.D., Gnanamani, M.K., Graham, U.M., Yang, J., Masuku, C.M., Jacobs, G., Davis, B.H., \u201cFischer-Tropsch: Product Selectivity\u2013The Finger Print of Synthetic Fuels,\u201d\u00a0Catalysts<\/em>\u00a09 (2019) 259 (57 pages).<\/p>\n

223.\u00a0 Teles, C.A., de Souza, P.M., Braga, A.H., Rabelo-Neto, R.C., Teran, A., Jacobs, G., Resasco, D.E., Noronha, F.B., “The Role of Defect Sites and Oxophilicity of the Support on the Phenol Hydrodeoxygenation Reaction,” Applied Catalysis B: Environmental<\/i> 249 (2019) 292-305.<\/p>\n

222.\u00a0 Mehrbod, M., Martinelli, M., Martino, A.G., Cronauer, D.C. Cronauer, Kropf, A.J., Marshall, C.L., Jacobs, G., “Fischer-Tropsch synthesis:\u00a0 direct cobalt nitrate reduction of promoted Co\/TiO2<\/sub> catalysts,” Fuel 245 (2019) 488-504.<\/p>\n

221.\u00a0 Martinelli, M.; Mehrbod, M.; Graham, U.M.; Hu, Y.; Gnanamani, M.K.; Jacobs, G., “Soft x-ray characterization of sulfur poisoned cation-exchanged Pt\/KL catalysts for aromatization of hexane,” in Chemistry Solutions to Challenges in the Petroleum Industry, ACS Books, Rahimi, P. and Koenig, A., eds., Copyright 2019, Washington, D.C. DOI: 10.1021\/bk-2019-1320.ch009<\/p>\n

220.\u00a0 Shafer, W.D.; Jacobs, G.; Graham, U.M.; Hamdeh, H.H.; Davis, B.H., “Increased CO2 hydrogenation to liquid products using promoted iron catalysts,” Journal of Catalysis 369 (2019) 239-248.<\/p>\n

219.\u00a0 Ribeiro, M.C.; Gnanamani, M.K.; Garcia, R.; Jacobs, G.; Rabelo-Neto, R.C.; Noronha, F.B.; Gomes, I.G.; Davis, B.H., “Tailoring the product selectivity of Co\/SiO2<\/sub> Fischer-Tropsch synthesis catalysts by lanthanide doping,” Catalysis Today, 343 (2020) 80-90. https:\/\/doi.org\/10.1016\/j.cattod.2018.10.064<\/a><\/p>\n

218.\u00a0 Martinelli, M., Gnanamani, M.K., Hopps, S.D., Sparks, D.E., MacLennan, A., Hu, Y., Davis, B.H., Jacobs, G., “Effect of phosphorus on the activity and stability of supported cobalt catalysts for Fischer-Tropsch synthesis,” ChemCatChem 10 (2018) 3709-3716.<\/p>\n

217.\u00a0 Ma, W., Shafer, W.D., Jacobs, G., Yang, J., Sparks, D.E., Hamdeh, H.H., Davis, B.H., “Fischer-Tropsch synthesis: Effect of\u00a0CO conversion on CH4<\/sub> and oxygenate selectivities\u00a0over precipitated Fe-K catalysts,” Applied Catalysis A: General 560 (2018) 142-152.<\/p>\n

216. \u00a0Martinelli, M., Mehrbod, M., Dawson, C., Davis, B.H., Lietti, L, Cronauer, D.C., Kropf, A.J., Marshall, C.L., Jacobs, G., “Fischer-Tropsch synthesis: Foregoing calcination and utilizing reduction promoters leads to improved conversion and selectivity with Co\/silica,” Applied Catalysis A: General 559 (2018) 153-166.<\/p>\n

215.\u00a0 Resende, K.A.; Teles, C.A., Jacobs, G.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L., Hori, C.E.; Noronha, F.B., “Hydrodeoxygenation of phenol over zirconia supported Pd bimetallic catalysts.\u00a0 The effect of second metal on catalyst performance,” Applied Catalysis B: Environmental 232 (2018) 213-231.<\/p>\n

214.\u00a0 Shafer, W.D.; Jacobs, G.; Graham, U.M.; Pendyala, V.R.R.; Martinelli, M.; Thomas, G.A.; Jermwongratanachai, T.; MacLennan, A.; Hu, Y.; Davis, B.H., “Hexane aromatization: analysis of the K-edges of S and K provides new insight into H2S poisoning of Pt\/KL,” Catalysis Letters 148 (2018) 97-107.<\/p>\n

213.\u00a0 Gnanamani, M.K.; Jacobs, G.; Martinelli, M.; Shafer, W.D.; Hopps, S.D.; Thomas, G.A.; Davis, B.H., “Dehydration of 1,5-pentanediol over Na-doped CeO2 catalysts,” ChemCatChem 10 (2018) 1148-1154.<\/p>\n

212.\u00a0 Pendyala, V.R.R.; Jacobs, G.; Ma, W.; Shafer, W.D.; Sparks, D.E.; MacLennan, A.; Hu, Y.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of carbonyl sulfide poison over a Pt promoted Co\/alumina catalyst,\u201d Catalysis Today (Special Issue, NGCS11) 299 (2018) 14-19.<\/p>\n

211.\u00a0 Ma, W.; Jacobs, G.; Pendyala, V.R.R.; Sparks, D.E.; Shafer, W.D.; Thomas, G.A.; MacLennan, A.; Hu, Y.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of KCl contaminant on the performance of iron and cobalt catalysts,\u201d Catalysis Today (Special Issue, NGCS11) 299 (2018) 38-36.<\/p>\n

210. Barrios, A.M.; Teles, C.A.; de Souza, P.M.; Rabelo-Neto, R.C.; Jacobs, G.; Davis, B.H.; Borges, L.E.P.; Noronha, F.B., \u201cHydrogenation of phenol over niobia supported catalyst,\u201d Catalysis Today 302 (2018) 115-124.<\/span><\/p>\n

209.\u00a0 Todic, B.; Ma, W.; Jacobs, G.; Nikacevic, N.; Davis, B.H.; Bukur, D.B., “Kinetic modeling of secondary methane formation and 1-olefin hydrogenation in Fischer-Tropsch synthesis over a cobalt catalyst,” International Journal of Chemical Kinetics 49 (2017) 859-874.<\/p>\n

208.\u00a0 Gnanamani, M.K.; Jacobs, G.; Shafer, W.D.; Martinelli, M.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L.; Davis, B.H., “Ga and In modified Ceria as a support for Cobalt Fischer-Tropsch Synthesis,”\u00a0 Applied Catalysis A: General 547 (2017) 115-123.<\/p>\n

207.\u00a0 Jacobs, G.; Pendyala, V.R.R.; Martinelli, M.; Shafer, W.D.; Gnanamani, M.K.; Khalid, S.; MacLennan, A.; Hu, Y.; Davis, B.H., \u201cFischer\u2013Tropsch Synthesis: XANES Spectra of\u00a0Potassium in\u00a0Promoted Precipitated Iron Catalysts as\u00a0a\u00a0Function of\u00a0Time On-stream,\u201d Catalysis Letters 147 (2017) 1861-1870.<\/p>\n

206.\u00a0 Gnanamani, M.K.; Jacobs, G.; Shafer, W.D.; Hopps, S.D.; Davis, B.H., \u201cDehydration of Pentanediol over CeO2, CeO2-Ga2O3, and CeO2-In2O3,” Chemistry Select 2 (2017) 4150-4156.<\/p>\n

205.\u00a0 Pendyala, V.R.R.; Jacobs, G.; Graham, U.M.; Shafer, W.D.; Martinelli, M.; Kong, L.; Davis, B.H., \u201cFischer-Tropsch synthesis: Influence of acid treatment and preparation method on carbon nanotube supported ruthenium catalysts,\u201d Ind. Eng. Chem. Res. 56 (2017) 6408-6418.<\/p>\n

204.\u00a0 Martinelli, M.; Jacobs, G.; Graham, U.M.; Davis, B.H., \u201cMethanol steam reforming: Na doping of Pt\/YSZ provides fine tuning of selectivity,\u201d Catalysts 7 (2017) 148 (14 pages), MDPI publishing, Special Issue in honor of Calvin H. Bartholomew.<\/p>\n

203.\u00a0 Gnanamani, M.; Hamdeh, H.H.; Jacobs, G.; Shafer, W.D.; Hopps, S.D.; Thomas, G.A.; Davis, B.H., \u201cHydrogenation of carbon dioxide over K-promoted FeCo bimetallic catalysts prepared from mixed metal oxalates,\u201d ChemCatChem 9 (2017) 1303-1312.<\/p>\n

202. \u00a0Gnanamani, M.K.; Jacobs, G.; Graham, U.M.; Pendyala, V.R.R.; Martinelli, M.; MacLennan, A.; Hu, Y.; Davis, B.H., \u201cEffect of sequence of P and Co addition over silica for Fischer-Tropsch synthesis,\u201d Applied Catalysis A: General 538 (2017) 190-198.<\/p>\n

201.\u00a0 Teles, C.A.; Rabelo-Neto, R.C.; Jacobs, G.; Davis, B.H.; Resasco, D.E.; Noronha, F.B., \u201cHydrodeoxygenation of phenol over zirconia supported catalysts.\u00a0 The effect of metal type on reaction mechanism and catalyst deactivation,\u201d ChemCatChem 9 (2017) 2850-2863.<\/p>\n

200.\u00a0 de Souza, P.M.; Rabelo-Neto, R.C.; Borges, L.E.P.; Jacobs, G.; Davis, B.H.; Resasco, D.E.; Noronha, F.B., \u201cHydrodeoxygenation of phenol over Pd catalysts.\u00a0 Effect of support on reaction mechanism and catalyst deactivation,\u201d ACS Catalysis 7 (2017) 2058-2073.<\/p>\n

199. Graham, U.M.; Jacobs, G.; Yokel, R.A.; Davis, B.H.; Dozier, A.K.; Birch, M.E.; Tseng, M.T.; Oberd\u00f6rster, G.; Elder, A.; DeLouise, L., \u201cFrom dose to response:\u00a0 in vivo nanoparticle processing and potential toxicity,\u201d Chapter 4 in Modelling the Toxicity of Nanoparticles, Advances in Experimental Medicine and Biology, Vol. 947, DOI 10.1007\/978-3-319-47754-1_4, Springer International Publishing, 2017, pp. 71-100.<\/p>\n

198. Pendyala, V.R.R.; Shafer, W.D., Jacobs, G., Martinelli, M.; Sparks, D.E.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of ammonia on product selectivities for a Pt promoted Co\/alumina catalyst,\u201d RSC Advances 7 (2017) 7793-7800.<\/p>\n

197. Martinelli, M.; Jacobs, G.; Shafer, W.D.; Davis, B.H., \u201cEffect of alkali on C-H bond scission over Pt\/YSZ catalyst during water-gas shift, steam-assisted formic acid decomposition and methanol steam reforming,\u201d Catalysis Today 291 (2017) 29-35.<\/p>\n

196. Gnanamani, M.; Jacobs, G.; Shafer, W.D.; Davis, B.H., \u201cDehydration of 2-octanol over CeO2-CaO mixed oxides,\u201d ChemCatChem 9 (2017) 492-498.<\/p>\n

195. Pendyala, V.R.R.; Jacobs, G.; Ma, W.; Sparks, D.E.; Shafer, W.E.; Khalid, S.; Xiao, Q.; Hu, Y.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 XANES investigation of hydrogen chloride poisoned iron and cobalt-based catalysts at the K-edges of Cl, Fe, and Co,\u201d Catalysis Letters 146 (2016) 1858-1866.<\/p>\n

194. Gnanamani, M.K., Hamdeh, H.H., Jacobs, G., Qian, D., Liu, F., Hopps, S.D., Thomas, G.A., Shafer, W.D., Xiao, Q., Hu, Y., Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of Cu, Mn and Zn addition on activity and product selectivity of cobalt ferrite,\u201d RSC Advances 6 (2016) 62356-62367.<\/p>\n

193. Gnanamani, M.K.; Jacobs, G.; Pendyala, V.R.R.; Graham, U.M.; Hopps, S.D.; Thomas, G.A.; Shafer, W.D.; Sparks, D.E.; Xiao, Q.; Hu, Y.; Davis, B.H., \u201cFischer-Tropsch synthesis: anchoring of cobalt particles in phosphorus modified cobalt \/ silica catalysts,\u201d Applied Catalysis A: General 523 (2016) 146-158.<\/p>\n

192. Ma, W., Jacobs, G., Shafer, W.D., Pendyala, V.R.R., Xiao, Q.; Hu, Y., Davis, B.H., \u201cEffect of H2S in syngas on the Fischer-Tropsch synthesis performance of 0.5%Pt-25%Co\/Al2O3 catalyst\u201d, Catalysis Letters 146 (2016) 1204-1212.<\/p>\n

191. Pendyala, V.R.R.; Jacobs, G.; Ma, W.; Davis, B.H., \u201cFischer-Tropsch synthesis: impact of ammonia on alumina- and silica-supported catalysts activity,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 14, pp. 257-274.<\/p>\n

190. Pendyala, V.R.R.; Jacobs, G.; Bertaux, C.; Khalid, S.; Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of ammonia on supported cobalt catalysts,\u201d Journal of Catalysis 337 (2016) 80-90.<\/p>\n

189. Pendyala, V.R.R.; Shafer, W.D.; Jacobs, G.; Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of solvent on the H2-D2 isotopic exchange rate over an activated nickel catalyst,\u201d Catalysis Today 270 (2016) 2-8.<\/p>\n

188. Ma, W.; Sparks, D.E.; Jacobs, G.; Klettlinger, J.L.S.; Yen, C.H.; Davis, B.H., \u201cFischer-Tropsch synthesis and water gas shift kinetics for a precipitated iron catalyst,\u201d Catalysis Today 275 (2016) 49-58.<\/p>\n

187. Jacobs, G.; Bertaux, C.; Pendyala, V.R.R.; Shafer W.D.; Poirier, J.-S.; Xiao, Q.; Hu, Y.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 Cobalt catalysts on alumina having partially pre-filled pores exhibit higher C5+ and lower light gas selectivities,\u201d Applied Catalysis A: General 516 (2016) 51-57.<\/p>\n

186. Bertaux, C.; Jacobs, G.; Shafer, W.D., Davis, B.H., \u201cMitigation of methane selectivity on Pt\/KL-zeolite aromatization catalysts by Ag promotion,\u201d Catalysis Letters 146 (2016) 763-769.<\/p>\n

185. Ma, W.; Jacobs, G.; Sparks, D.E.; Shafer, W.D.; Hamdeh, H.H.; Hopps, S.G.; Pendyala, V.R.R.; Hu, Y.; Xiao, Q.; Davis, B.H., \u201cEffect of H2S in syngas on the Fischer-Tropsch synthesis performance of a precipitated iron catalyst,\u201d Applied Catalysis A: General 513 (2016) 127-137.<\/p>\n

184. de Souza, P.M.; Rabelo-Neto, R.C.; Borges, L.E.P.; Jacobs, G.; Davis, B.H.; Graham, U.M.; Resasco, D.E.; Noronha, F.B., \u201cEffect of zirconia morphology on hydrodeoxygenation of phenol over Pd\/ZrO2,\u201d ACS Catalysis 5 (2015) 7385-7398.<\/p>\n

183. Pendyala, V.R.R.; Jacobs, G.; Graham, U.M.; Poirier, J.-S.; Smiley, D.D.; Morales, M.A.; Shafer, W.D.; Khalid, S.; Davis, B.H., \u201cFischer-Tropsch synthesis: activity and product selectivity of SiC supported Ru catalysts,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 16, pp. 295-308.<\/p>\n

182. Shafer, W.D.; Pendyala, V.R.R.; Gnanamani, M.K.; Jacobs, G.; Selegue, J.; Hopps, S.; Thomas, G.A.; Davis, B.H., \u201cIsotopic apportioning of hydrogen\/deuterium on the surface of an activated iron carbide catalyst,\u201d Catalysis Letters 145 (2015) 1683-1690.<\/p>\n

181. Gnanamani, M.K.; Jacobs, G.; Hamdeh, H.H.; Shafer, W.D.; Liu, F.; Hopps, S.; Thomas, G.A.; Davis, B.H., \u201cHydrogenation of carbon dioxide over Co-Fe bimetallic catalysts,\u201d ACS Catalysis 6 (2016) 913-927.<\/p>\n

180. Gnanamani, M.K.; Jacobs, G.; Graham, U.M.; Ribeiro, M.C.; Noronha, F.B.; Shafer, W.D.; Davis, B.H., \u201cInfluence of carbide formation on oxygenates selectivity during Fischer-Tropsch synthesis over Ce-containing Co catalysts,\u201d (special issue dedicated to Prof. Calvin H. Bartholomew) Catalysis Today 261 (2016) 40-47.<\/p>\n

179. Pendyala, V.R.R.; Jacobs, G.; Shafer, W.D.; Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of solvent on the H2\u2013D2 isotopic exchange rate over an activated cobalt catalyst,\u201d Canadian J. Chem. Eng. 94 (2016) 678-684.<\/p>\n

178. Gao, P.; Graham, U.M.; Shafer, W.D., Linganiso, L.Z.; Jacobs, G.; Davis, B.H., \u201cNanostructure and kinetic isotope effect of alkali-doped Pt\/silica catalysts for water-gas shift and steam-assisted formic acid decomposition,\u201d (special issue dedicated to Dr. Jens Rostrup-Nielsen) Catalysis Today 272 (2016) 42-48.<\/p>\n

177. Gnanamani, M.K.; Jacobs, G.; Keogh, R.A.; Shafer, W.D.; Sparks, D.E.; Hopps, S.; Thomas, G.A.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 Effect of pretreatment conditions of cobalt on activity and selectivity for hydrogenation of carbon dioxide,\u201d Applied Catalysis A: General 499 (2015) 39-46.<\/p>\n

176. Ma, W.; Graham, U.M., Jacobs, G.; Todic, B., Bukur, D.B., Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 effect of CO conversion on product selectivities during deactivation or by changing space velocity at stable conditions over unpromoted and Ru-promoted 25%Co\/Al2O3 catalysts,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 8, pp. 117-150.<\/p>\n

175. Hughes, N.A.; Gloriot, V.; Smiley, D.D., Jacobs, G.; Pendyala, V.R.R.; Graham, U.M.; Ma, W.; Gnanamani, M.K.; Shafer, W.D.; Maclennan, A.; Hu, Y.; Khalid, S.; Davis, B.H., \u201cFischer-Tropsch synthesis: comparisons of Al2O3 and TiO2 supported Co catalysts prepared by aqueous impregnation and CVD methods,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 6, pp. 85-106.<\/p>\n

174. Smiley, D.D.; Gloriot, V.; Jacobs, G.; Pendyala, V.R.R.; Graham, U.M.; Ma, W.; Shafer, W.D.; Thomas, G.A.; Hopps, S.; Maclennan, A.; Hu., Y.; Khalid, S.; Davis, B.H., \u201cFischer-Tropsch synthesis: comparisons of SiO2 and SiC supported Co catalysts prepared by aqueous impregnation and CVD methods,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 5, pp. 55-84.<\/p>\n

173. Suggs, S.S.; Moran, C.P.; Shafer, W.D.; Crawford, A.C.; Jacobs, G.; Patterson, P.M.; Khalid, S.; Davis, B.H., \u201cLow temperature water-gas shift: comparative study of lanthanide oxide supported Pt catalysts,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 18, pp. 327-342.<\/p>\n

172. Chakrabarti, D.; de Klerk, A.; Prasad, V.; Gnanamani, M.K.; Shafer, W.D.; Jacobs, G.; Sparks, D.E.; Davis, B.H., \u201cConversion of CO2 over a Co-based Fischer-Tropsch catalyst,\u201d, Industrial & Engineering Chemistry Research 54 (2015) 1189-1196.<\/p>\n

171. Pendyala, V.R.R.; Jacobs, G.; Gnanamani, M.K.; Hu, Y.; MacLennan, A.; Davis, B.H., \u201cSelectivity control of Cu promoted iron-based Fischer-Tropsch catalyst by tuning the oxidation state of Cu to mimic K,\u201d Applied Catalysis A: General 495 (2015) 45-53.<\/p>\n

170. Shafer, W.D.; Pendyala, V.R.R.; Jacobs, G.; Selegue, J.; Davis, B.H., \u201cInvestigation of the partitioning of dissociated H2 and D2 on activated ruthenium catalysts,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 13, pp. 243-256.<\/p>\n

169. Ma, W.; Jacobs, G.; Thomas, G.A.; Shafer, W.D.; Sparks, D.E.; Hamdeh, H.H.; Davis, B.H., \u201cFischer-Tropsch synthesis: effects of hydrohalic acids in syngas on a precipitated iron catalyst,\u201d ACS Catalysis 5 (2015) 3124-3136.<\/p>\n

168. Keyvanloo, K.; Fisher, M.; Hecker, W.; Lancee, R.; Jacobs, G.; Niemantsverdriet, J.W.; Bartholomew, C.H., \u201cKinetics of deactivation of cobalt Fischer-Tropsch catalyst by carbon: effects of CO and H2 partial pressures,\u201d Journal of Catalysis 327 (2015) 33-47.<\/p>\n

167. Ma, W.; Jacobs, G.; Sparks, D.E.; Pendyala, V.R.R.; Hopps, S.G.; Thomas, G.A.; Hamdeh, H.H.; Maclennan, A.; Hu, Y., Davis, B.H., \u201cFischer-Tropsch synthesis: effect of ammonia in syngas on the Fischer-Tropsch synthesis performance of a precipitated iron catalyst,\u201d Journal of Catalysis 326 (2015) 149-160.<\/p>\n

166. Shafer, W.D.; Jacobs, G.; Alvez, G.; Snell, R.; Hao, X.; Davis, B.H., \u201cProbing the ability of KL-zeolite to provide single file access of hexane to Pt nanoclusters as a function of pressure,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 19, pp. 343-360.<\/p>\n

165. Gnanamani, M.K.; Hamdeh, H.H.; Jacobs, G.; Shafer, W.D.; Sparks, D.E.; Davis, B.H., \u201cFischer-Tropsch synthesis: activity and selectivity of c-Fe5C2 and q-Fe3C carbides,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 2, pp. 15-30.<\/p>\n

164. Martinelli, M.; Jacobs, G.; Graham, U.M.; Shafer, W.D.; Visconti, C.G.; Lietti, L.; Davis, B.H., \u201cLow temperature water-gas shift: effects of Y and Na in high surface area Na-doped YSZ supported Pt catalysts,\u201d in Fischer-Tropsch Synthesis, Catalysts and Catalysis:\u00a0 Advances and Applications, (eds. B.H. Davis, M.L. Occelli), CRC Press, Taylor & Francis Group, Boca Raton, FL, USA, 2016, Ch. 17, pp. 309-326.<\/p>\n

163. Jacobs, G.; Davis, B.H., \u201cReactor approaches for Fischer-Tropsch synthesis,\u201d in Multiphase Catalytic Reactors: Theory, Design, Manufacturing and Applications, (Eds. A. Avci, G., Onsan, Z.I.) Wiley-Blackwell (2016), pp. 271 – 294.<\/p>\n

162. de Souza, P.M.; Rabelo-Neto, R.C.; Borges, L.E.P.; Jacobs, G.; Davis, B.H.; Sooknoi, T.; Resasco, D.E.; Noronha, F.B., \u201cRole of keto intermediates in the hydrodeoxygenation of phenol over Pd on oxophilic supports,\u201d ACS Catalysis 5 (2015) 1318-1329.<\/p>\n

161. Hedlund, J.K.; Cronauer, D.C.; Jacobs, G.; Kropf, A.J.; Libera, J.A.; Elam, J.W.; Marshall, C.L.; Pendyala, V.R.R.; Davis, B.H., \u201cTitania Supported Ru Nanoclusters as Catalysts for Hydrodeoxygenation of Pyrolysis Oils,\u201d Catalysis Letters 146 (2016) 525-539.<\/p>\n

160. Pendyala, V.R.R.; Shafer, W.D.; Jacobs, G.; Graham, U.M.; Khalid, S.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of reducing agent for aqueous-phase synthesis over Ru nanoparticle and supported Ru catalysts,\u201d Catalysis Letters 145 (2015) 893-904.<\/p>\n

159. Martinelli, M.; Jacobs, G.; Graham, U.M.; Shafer, W.D.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L.; Khalid, S.; Visconti, C.G.; Lietti, L.; Davis, B.H., \u201cWater-gas shift:\u00a0 characterization and testing of nanoscale YSZ supported Pt catalysts,\u201d Applied Catalysis A: General 497 (2015) 184-197.<\/p>\n

158. Jacobs, G.; Ricote, S.; Graham, U.M.; Davis, B.H., \u201cLow temperature water-gas-shift reaction: interactions of steam and CO with ceria treated with different oxidizing and reducing environments,\u201d Catalysis Letters 145 (2015) 533-540.<\/p>\n

157. Ribeiro, M.C.; Rabelo-Neto, R.C.; Mattos, L.V.; Jacobs, G.; Davis, B.H.; Noronha, F.B., \u201cA relationship between the production of oxygenates from ethanol\/steam mixtures and the oxygen mobility in transition metal oxide doped CeO2\u00b7SiO2 catalysts,\u201d Journal of Physical Chemistry C 118 (2014) 28007-28016.<\/p>\n

156. Pendyala, V.R.; Graham, U.M.; Jacobs, G.; Hamdeh, H.H.; Davis, B.H., \u201cFischer-Tropsch synthesis: deactivation as a function of potassium promoter loading for precipitated iron catalyst,\u201d Catalysis Letters 144 (2014) 1704-1716.<\/p>\n

155. Jacobs, G.; Davis, B.H., \u201cApplications of isotopic tracers in Fischer-Tropsch synthesis,\u201d Catalysis Science and Technology 4 (2014) 3927-3944.<\/p>\n

154. Gnanamani, M.K.; Pendyala, V.R.R.; Jacobs, G.; Sparks, D.E.; Shafer, W.D.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of halides and potassium addition on activity and selectivity of cobalt,\u201d Catalysis Letters 144 (2014) 1127-1133.<\/p>\n

153. Pendyala, V.R.R.; Jacobs, G., Hamdeh, H.H.; Shafer, W.D.; Sparks, D.E.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of activation gas after varying Cu promoter loading over K-promoted Fe-based catalyst,\u201d Catalysis Letters 144 (2014) 1624-1635.<\/p>\n

152. Graham, U.M.; Jacobs, G.; Gnanamani, M.; Lipka, S.M.; Shafer, W.D.; Swartz, C.R.; Jermwongratanachai, T.; Chen, R.; Rogers, F.; Davis, B.H., \u201cFischer Tropsch synthesis:\u00a0 high oxygenate-selectivity of cobalt catalysts supported on hydrothermal carbons,\u201d ACS Catalysis 4 (2014) 1662-1672.<\/p>\n

151. Pendyala, V.R.R.; Jacobs, G.; Ma, W.; Klettlinger, J.L.S.; Yen, C.H.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of catalyst particle (sieve) size range on activity, selectivity, and aging of a Pt promoted Co\/Al2O3 catalyst,\u201d Chemical Engineering Journal 249 (2014) 279-284.<\/p>\n

150. Pendyala, V.R.R.; Shafer, W.D.; Jacobs, G.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of reaction temperature for aqueous-phase synthesis over a platinum promoted Co\/alumina catalyst,\u201d Catalysis Letters 144 (2014) 1088-1095.<\/p>\n

149. Pendyala, V.R.R.; Graham, U.M.; Jacobs, G.; Hamdeh, H.H.; Davis, B.H., \u201cFischer-Tropsch synthesis: morphology, phase transformation and carbon layer growth of iron-based catalysts,\u201d ChemCatChem. 6 (2014) 1952-1960.<\/p>\n

148. Jacobs, G.; Ma, W.; Davis, B.H. (Special issue on Deactivation, C.H. Bartholomew, M.D. Argyle,Eds.), \u201cInfluence of reduction promoters on stability of cobalt\/g-alumina Fischer-Tropsch synthesis catalysts,\u201d Catalysts 4 (2014) 49-76;\u00a0 Advances in Catalyst Deactivation (C.H. Bartholomew, M.D. Argyle, eds.), MDPI, Basel, Switzerland, 2016, pp. 152-179.<\/p>\n

147. Ma, W.; Jacobs, G.; Gao, P.; Jermwongratanachai, T.; Shafer, W.D.; Pendyala, V.R.R.; Chia H. Yen; Jennifer L.S. Klettlinger; Davis, B.H., \u201cFischer-Tropsch synthesis: pore size and Zr promotional effects on the activity and selectivity of 25%Co\/Al2O3 catalysts,\u201d Applied Catalysis A: General 475 (2014) 314-324.<\/p>\n

146. Todic, B., Ma, W., Jacobs, G., Davis, B.H., Bukur, D.B., \u201cEffect of process conditions on the product distribution of Fischer-Tropsch synthesis over a Re-promoted cobalt-alumina catalyst using a stirred tank reactor,\u201d Journal of Catalysis 311 (2014) 325-338.<\/p>\n

145. Ma, W.; Jacobs, G., Das, T.K., Masuku, C.M.; Kang, J.; Pendyala, V.R.R., Davis, B.H.; Klettlinger, J.L.S.; Yen, C.H. \u201cFischer-Tropsch synthesis: Kinetics and water effect on methane formation over 25%Co\/g-Al2O3 catalyst,\u201d Industrial & Engineering Chemistry Research 53 (2014) 2157-2166.<\/p>\n

144. Azzam, K.; Jacobs, G.; Ma, W.; Davis, B.H.\u00a0 \u201cEffect of cobalt particle size on the catalyst intrinsic activity for Fischer-Tropsch synthesis,\u201d Catalysis Letters 144 (2014) 389-394.<\/p>\n

143. Yang, J.; Shafer, W.D.; Pendyala, V.R.R., Jacobs, G.; Chen, D.; Holmen, A.; Davis, B.H.\u00a0 Fischer-Tropsch synthesis: using deuterium as a tool to investigate primary product distribution,\u201d Catalysis Letters 144 (2014) 524-530.<\/p>\n

142. Wang, J.; Ji, Y.; Jacobs, G.; Jones, S.; Kim, D.-J.; Crocker, M., \u201cEffect of aging on NOX reduction in coupled LNT-SCR systems,\u201d Applied Catalysis B: Environmental 148-149 (2014) 51-61.<\/p>\n

141. Yang, J.; Jacobs, G.; Jermwongratanachai, T.; Pendyala, V.R.R.; Ma, W.; Chen, D.; Holmen, A.; Davis, B.H., \u201cFischer-Tropsch synthesis: impact of activation by H2 or CO on methane selectivity,\u201d Catalysis Letters 144 (2014) 123-132.<\/p>\n

140. Jermwongratanachai, T.; Jacobs, G.; Shafer, W.D.; Pendyala, V.R.R.; Ma, W.; Gnanamani, M.K.; Hopps, S.; Thomas, G.A.; Kitiyanan, B.; Khalid, S.; Davis, B.H., \u201cFischer-Tropsch synthesis: TPR and XANES analysis of the impact of oxidation-reduction (OR) cycles on the reducibility of Co\/alumina catalysts with different promoters (Pt, Ru, Re, Ag, Au, Rh, Ir),\u201d Catalysis Today 228 (2014) 15-21.<\/p>\n

139. Ma, W.; Jacobs, G.; Sparks, D.E.; Spicer, R.L.; Davis, B.H.; Klettlinger, J.L.S.; Yen, C.H., \u201cFischer-Tropsch synthesis: Kinetics and water effect study over 25%Co\/Al2O3 catalysts,\u201d Catalysis Today 228 (2014) 158-166.<\/p>\n

138. Ribeiro, M.C.; Gnanamani, M.K.; Rabelo-Neto, R.C.; Azevedo, I.R.; Pendyala, V.R.R.; Jacobs, G.; Davis, B.H.; Noronha, F.B., \u201cFischer-Tropsch Synthesis: studies on the effect of support reducibility on the selectivity to n-alcohols in Co\/CeO2.MOy (M=Si, Mn, Cr) catalysts,\u201d Topics in Catalysis 57 (2014) 550-560.<\/p>\n

137. da Silva, A.A.A.; Ribeiro, M.C.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L.; Gao, P.; Jacobs, G.; Davis, B.H.; Noronha, F.B.; Mattos, L.V., \u201cEthanol reforming reactions over Co and Cu based catalysts obtained from LaCoCuO3 pervskite-type oxides,\u201d Topics in Catalysis 57 (2014) 637-655.<\/p>\n

136. Ma, W.; Jacobs, G.; Graham, U.M.; Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of K loading on the water-gas shift reaction during Fischer-Tropsch synthesis on Fe-based catalysts,\u201d Topics in Catalysis 57 (2014) 561-571.<\/p>\n

135. Yang, J.; Shafer, W.D.; Pendyala, V.R.R.; Jacobs, G.; Ma, W.; Chen, D.; Holmen, A.; Davis, B.H., \u201cFischer-Tropsch synthesis: Deuterium kinetic isotopic effect for a 2.5%Ru\/NaY catalysts,\u201d Topics in Catalysis 57 (2014) 508-517.<\/p>\n

134. Gnanamani, M.K.; Jacobs, G.; Shafer, W.D.; Sparks, D.E.; Hopps, S.; Thomas, G.A.; Davis, B.H., \u201cLow temperature water-gas shift reaction over alkali metal promoted cobalt carbide catalysts,\u201d Topics in Catalysis 57 (2014) 612-618.<\/p>\n

133. Jermwongratanachai, T.; Jacobs, G.; Shafer, W.D.; Ma, W.; Pendyala, V.R.R.; Davis, B.H.; Kitiyanan, B.; Khalid, S.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L., \u201cFischer-Tropsch synthesis: oxidation of a fraction of cobalt crystallites in research catalysts at the onset of FT at partial pressures mimicking 50% CO conversion,\u201d Topics in Catalysis 57 (2014) 479-490.<\/p>\n

132. Shafer, W.D., Selegue, J.; Jacobs, G.; Davis, B.H., \u201cAn investigation of the partitioning of dissociated H2 and D2 on activated nickel catalysts,\u201d Catalysis Letters 143 (2013) 1368-1373.<\/p>\n

131. Todic, B.; Ma, W.; Jacobs, G.; Davis, B.H.; Bukur, D.B., \u201cCO-insertion mechanism based detailed kinetic model of the Fischer-Tropsch synthesis reaction over a Re-promoted Co catalyst,\u201d Catalysis Today 228 (2014) 32-39.<\/p>\n

130. Pendyala, V.R.R.; Gnanamani, M.K.; Jacobs, G.; Ma, W.; Shafer, W.D.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of ammonia impurities in syngas feed over cobalt\/alumina catalyst,\u201d Applied Catalysis A: General 468 (2013) 38-43.<\/p>\n

129. Jermwongratanachai, T.; Jacobs, G.; Ma, W.; Shafer, W.D.; Gnanamani, M.K.; Gao, P.; Kitiyanan, B.; Davis, B.H.; Klettlinger, J.L.S.; Yen, C.H.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L., \u201cFischer-Tropsch synthesis: comparisons between Pt and Ag promoted Co\/Al2O3 catalysts for reducibility, local atomic structure, catalytic activity, and oxidation-reduction cycles,\u201d Applied Catalysis A: General 464-465 (2013) 165-180.<\/p>\n

128. Jacobs, G. and Davis, B.H., \u201cNanocatalysis for fuel production\u201d, \u201d in Nanotechnology for the Energy Challenge (J. Garcia-Martinez, Ed.), 2nd Ed., Wiley\u2014VCH, 2013, pp. 407-471.<\/p>\n

127. Graham, U.M.; Jacobs, G.; Davis, B.H., \u201cNanocatalysis for iron-catalyzed Fischer-Tropsch synthesis:\u00a0 one perspective\u201d in Nanotechnology for the Energy Challenge (J. Garcia-Martinez, Ed.), 2nd Ed., Wiley\u2014VCH, 2013, pp. 213-231.<\/p>\n

126. Gnanamani, M.K.; Jacobs, G.; Shafer, W.D.; Davis, B.H., \u201cFischer-Tropsch synthesis: activity of metallic phases of cobalt supported on silica,\u201d Catalysis Today 215 (2013) 13-17.<\/p>\n

125. Sparks, D.E.; Jacobs, G.; Gnanamani, M.K.; Pendyala, V.R.R.; Ma, W.; Kang, J.; Shafer, W.D.; Keogh, R.A.; Graham, U.M.; Gao, P.; and Davis, B.H., \u201cPoisoning of cobalt catalyst used for Fischer-Tropsch synthesis, Catalysis Today 215 (2013) 67-72.<\/p>\n

124. Ma, W.; Jacobs, G.; Kang, J.; Sparks, D.E.; Gnanamani, M.K.; Pendyala, V.R.R.; Shafer, W.D.; Keogh, R.A.; Graham, U.M.; Thomas, G.A.; Davis, B.H., \u201cFischer-Tropsch synthesis.\u00a0 Effect of alkali, bicarbonate, and chloride addition on activity and selectivity,\u201d Catalysis Today 215 (2013) 73-79.<\/p>\n

123. Jacobs, G.; Ma, W.; Gao, P.; Todic, B.; Bhatelia, T.; Bukur, D.B.; Davis, B.H., \u201cThe application of synchrotron methods in characterizing iron and cobalt Fischer-Tropsch synthesis catalysts,\u201d Catalysis Today 214 (2013) 100-139.<\/p>\n

122. Ribeiro, M.C., Jacobs, G., Davis, B.H., Mattos, L.V., Noronha, F.B., \u201cEthanol steam reforming: higher dehydrogenation selectivites observed by tuning oxygen-mobility and acid\/base properties with Mn in CeO2.MnOX.SiO2 catalysts,\u201d Topics in Catalysis 56 (2013) 1634-1643.<\/p>\n

121. Gnanamani, M.K., Jacobs, G., Pendyala, V.R.R., Ma, W., Davis, B.H., \u201cHydrogenation of carbon dioxide to liquid fuels,\u201d Chapter 4, Green CO2: Advances in CO2 Utilization, G. Centi, S. Perathoner, Eds., Wiley-Blackwell publishers (2014), pp. 99-118.<\/p>\n

120. Pendyala, V.R.R.; Jacobs, G.; Luo, M.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 Effect of start-up solvent in a slurry reactor,\u201d Catalysis Letters 143 (2013) 395-400.<\/p>\n

119. Todic, B.; Bhatelia, T.; Froment, G.F.; Ma, W.; Jacobs, G.; Davis, B.H.; Bukur, D.B., \u201cKinetic model of Fischer-Tropsch synthesis in a slurry reactor on Co\/Re\/Al2O3 catalyst,\u201d Industrial & Engineering Chemistry Research 52 (2013) 669-679.<\/p>\n

118. Pendyala, V.R.R., Jacobs, G., Shafer, W.D., Keogh, R.A., Kang, J., Sparks, D.E., Davis, B.H, \u201cShape-selective alkylation of biphenyl with propylene using zeolite and amorphous silica-alumina catalysts,\u201d Applied Catalysis A: General 453 (2013) 195-203.<\/p>\n

117. Kang, J.; Ma, W.; Keogh, R.A.; Shafer, W.D.; Jacobs, G.; Davis, B.H., \u201cHydrocracking and hydroisomerization of n-hexadecane, n-octacosane and Fischer-Tropsch wax over a Pt\/SiO2-Al2O3 catalyst,\u201d Catalysis Letters 142 (2012) 1295-1305.<\/p>\n

116. Bukur, D.B.; Pan, Z.; Ma, W.; Jacobs, G.; Davis, B.H., \u201cEffect of CO conversion on the product distribution of a Co\/Al2O3 Fischer-Tropsch synthesis catalyst using a fixed bed reactor,\u201d Catalysis Letters 142 (2012) 1382-1387.<\/p>\n

115. Gnanamani, M.K.; Jacobs, G.; Hamdeh, H.H.; Shafer, W.D.; Davis, B.H., \u201cFischer-Tropsch synthesis: M\u00f6ssbauer investigation of iron containing catalysts for hydrogenation of carbon dioxide,\u201d Catalysis Today 207 (2013) 50-56.<\/p>\n

114. Gnanamani, M.K.; Linganiso, L.Z.; Jacobs, G.; Keogh, R.A.; Shafer, W.D.; Davis, B.H., \u201cHydroisomerization of n-hexadecane over anion modified Pt\/HfO2 catalysts,\u201d Catalysis Letters 142 (2012) 1180-1189.<\/p>\n

113. Jacobs, G.; Ma, W.; Gao, P.; Todic, B.; Bhatelia, T.; Bukur, D.B.; Khalid, S.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 differences observed in local atomic structure and selectivity with Pd compared to typical promoters (Pt, Re, Ru) of Co\/Al2O3 catalysts,\u201d (dedicated to Prof. L. Guczi), Topics in Catalysis 55 (2012) 811-817.<\/p>\n

112. Wang, W., McCool, G., Kapur, N., Yuan, G., Shan, B., Nguyen, M., Graham, U.M., Davis, B.H., Jacobs, G., Cho, K., Hao, X., \u201cMn-based AMn2O5 (A=Sm, Gd, Pr) catalysts for selective NO oxidation in diesel exhaust: a new class of mullite material,\u201d Science 337 (2012) 832-835.<\/p>\n

111. Ma, W.; Jacobs, G.; Keogh, R.A.; Bukur, D.B.; Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of Pd, Pt, Re, and Ru noble metal promoters on the activity and selectivity of a 25%Co\/Al2O3 catalyst,\u201d Applied Catalysis A: General 437-438 (2012) 1-9.<\/p>\n

110. Mattos, L.V.; Jacobs, G.; Davis, B.H.; Noronha, F.B., \u201cProduction of hydrogen from ethanol.\u00a0 Review of reaction mechanism and catalyst deactivation,\u201d Chemical Reviews 112 (2012) 4094-4123.<\/p>\n

109. Shafer, W.D.; Jacobs, G.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 investigation of the partitioning of dissociated H2 and D2 on an activated cobalt catalyst,\u201d ACS Catalysis 2 (2012) 1452-1456.<\/p>\n

108. Gnanamani, M.K.; Jacobs, G.; Shafer, W.D.; Ribeiro, M.C.; Pendyala, V.R.R.; Ma, W.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 deuterium isotopic study for the formation of oxygenates over CeO2-supported Pt-Co catalysts,\u201d Catalysis Communications 25 (2012) 12-17.<\/p>\n

107. C\u00e1rdenas-Lizana, F.; G\u00f3mez-Queroa, S.; Jacobs, G.; Ji, Y.; Davis, B.H.; Kiwi-Minsker, L.; Keane, M.A.,\u00a0 \u201cAlumina supported Au-Ni: surface synergism in gas phase hydrogenation,\u201d Journal of Physical Chemistry C 116 (2012) 11166-11180.<\/p>\n

106. Cronauer, D.C.; Elam, J.W.; Kropf, A.J.; Marshall, C.L.; Gao, P.; Hopps, S.; Jacobs, G.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 preconditioning effects upon Co-containing promoted and unpromoted catalysts,\u201d Catalysis Letters 142 (2012) 698-713.<\/p>\n

105. Ma, W.; Jacobs, G.; Keogh, R.A.; Yen, C.H.; Klettlinger, J.L.S.; Davis, B.H. (with NASA researchers), \u201cFischer-Tropsch synthesis: effect of Pt promoter on activity, selectivities to hydrocarbons and oxygenates, and kinetic parameters over 15%Co\/Al2O3,\u201d Chapter 6 in Synthetic Liquids Production and Refining (eds. A. de Klerk and D.L. King), ACS Symposium Series 1084, ACS Copyright Office, Washington, D.C., USA, distributed in print by Oxford University Press, Inc, (printed in the USA), pp. 127-153, 2011.<\/p>\n

104. Shi, C.; Ji, Y.; Graham, U.M.; Jacobs, G.; Crocker, M.; Zhang, Z.; Wang, Y.; Toops, T.J., \u201cNOX storage and reduction properties of model ceria-based lean NOX trap catalysts,\u201d Applied Catalysis B: Environmental 119-120 (2012) 183-196.<\/p>\n

103. Jacobs, G.; Davis, B.H., \u201cResponse to comment on the article \u201cSurface interfaces in low temperature water-gas shift:\u00a0 The metal oxide synergy, the assistance of co-adsorbed water, and alkali doping,\u201d International Journal of Hydrogen Energy 37 (2012) 5314-5315.<\/p>\n

102. Masuku, C.M.; Gnanamani, M.K.; Shafer, W.D.; Ma, W.; Jacobs, G.; Hildebrandt, D.; Glasser, D.; Davis, B.H., \u201cVariation of residence time with chain length for products in a slurry phase Fischer-Tropsch reactor,\u201d Journal of Catalysis 287 (2012) 93-101.<\/p>\n

101. Linganiso, L.Z.; Pendyala, V.R.R.; Jacobs, G.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L., \u201cLow-temperature water-gas shift:\u00a0 doping ceria improves reducibility and mobility of O-bound species and catalyst activity,\u201d Catalysis Letters 141 (2011) 1723-1731.<\/p>\n

100. Mohandas, J.C.; Gnanamani, M.K.; Jacobs, G.; Ma, W.; Ji, Y.; Khalid, S.; Davis, B.H., \u201cFischer-Tropsch synthesis: synthesis, characterization, and reaction testing investigation of cobalt carbide,\u201d ACS Catalysis 1 (2011) 1581-1588.<\/p>\n

99.\u00a0\u00a0 Gnanamani, M.K; Jacobs, G.; Shafer, W.D.; Sparks, D.E.; Davis, B.H., \u201cFischer-Tropsch Synthesis: Deuterium kinetic isotope study for hydrogenation of carbon oxides over cobalt and iron catalysts,\u201d Catalysis Letters 141 (2011) 1420-1428.<\/p>\n

98.\u00a0\u00a0 Ma, W.; Jacobs, G.; Ji, Y.; Bhatelia, T.; Bukur, D.B.; Khalid, S.; Davis, B.H., \u201cFischer-Tropsch synthesis: influence of CO conversion on selectivities, H2\/CO usage ratios, and catalyst stability for a Ru promoted Co\/Al2O3 catalyst using a slurry-phase reactor,\u201d\u00a0 (dedicated to Prof. A. Holmen), Topics in Catalysis 54 (2011) 757-767.<\/p>\n

97.\u00a0\u00a0 Ribeiro, M.C.; Jacobs, G.; Linganiso, L.; Azzam, K.G.; Graham, U.M.; and Davis, B.H. \u201cLow temperature water gas shift: evaluation of Pt\/HfO2 and correlation between reaction mechanism and periodic trends in tetravalent (Ti, Zr, Hf, Ce, Th) metal oxides,\u201d ACS Catalysis 1 (2011) 1375-1383.<\/p>\n

96.\u00a0\u00a0 Cronauer, D.C., Jacobs, G., Linganiso, L., Kropf, A.J., Elam, J.W., Christensen, S.T., Marshall, C.L., Davis, B.H. (with Argonne National Laboratory), \u201cCO hydrogenation:\u00a0 exploring iridium as a promoter for supported cobalt catalysts by TPR-EXAFS\/XANES and reaction testing,\u201d Catalysis Letters 141 (2011) 968-976.<\/p>\n

95.\u00a0\u00a0 Bhatelia, T.; Ma, W.; Davis, B.H.; Jacobs, G.; Bukur, D.B., \u201cKinetics of the Fischer-Tropsch reaction over a Ru-promoted Co\/Al2O3 catalyst,\u201d Chemical Engineering Transactions (Eds. J.J. Klemes, P.S. Varbanov, H.L. Lam) 25 (2011) 707-712.<\/p>\n

94.\u00a0\u00a0 Ribeiro, M.C.; Jacobs, G.; Pendyala, R.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L. (with Argonne National Laboratory), \u201cFischer-Tropsch Synthesis: Influence of Mn on the Carburization Rates and Activities of Fe-Based Catalysts by TPR-EXAFS\/XANES and Catalyst Testing,\u201d Journal of Physical Chemistry C 115 (11) (2011) 4783-4792.<\/p>\n

93.\u00a0\u00a0 da Silva, A.M.; de Souza, K.R.; Mattos, L.V.; Jacobs, G.; Davis, B.H.; Noronha, F.B., \u201cThe effect of support reducibility on the stability of Co\/CeO2 for the oxidative steam reforming of ethanol,\u201d Catalysis Today 164 (2011) 234-239.<\/p>\n

92.\u00a0\u00a0 Linganiso, L.Z.; Jacobs, G.; Azzam, K.G.; Graham, U.M.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J.;and Marshall, C.L. (with Argonne National Laboratory), \u201cLow temperature water-gas shift:\u00a0 strategy to lower Pt loading by doping ceria with Ca2+ improves formate mobility\/WGS rate by increasing surface O-mobility,\u201d Applied Catalysis A: General 394 (2011) 105-116.<\/p>\n

91.\u00a0\u00a0 Gnanamani, M.K.; Ribeiro, M.C.; Ma, W.; Shafer, W.D.; Jacobs, G., Graham, U.M.; Davis, B.H., \u201cFischer-Tropsch synthesis: metal-support interfacial contact governs oxygenates selectivity over CeO2 supported Pt-Co catalysts,\u201d Applied Catalysis A: General 393 (2011) 17-23.<\/p>\n

90.\u00a0\u00a0 da Silva, A.M.; Jacobs, G.; Graham, U.M.; Davis, B.H.; Mattos, L.V.; Noronha, F.B., \u201cSteam and CO2 reforming of ethanol over Rh\/CeO2 catalyst,\u201d Applied Catalysis B: Environmental 102 (2011) 94-109.<\/p>\n

89.\u00a0\u00a0 Gnanamani, M.K.; Jacobs, G.; Keogh, R.A.; and Davis, B.H., \u201cDeuterium kinetic isotopic study for hydrogenolysis of ethyl butyrate,\u201d Journal of Catalysis 277 (2011) 27-35.<\/p>\n

88.\u00a0\u00a0 Ma, W.; Jacobs, G.; Sparks, D.E.; Gnanamani, M.K.; Pendyala, V.R.R.; Yen, C.H.; Klettlinger, J.L.S.; Tomsik, T.M.; Davis, B.H. (with NASA researchers); \u201cFischer-Tropsch synthesis: support and cobalt cluster size effects on kinetics over Co\/Al2O3 and Co\/SiO2 catalysts,\u201d Fuel 90 (2011) 756-765.<\/p>\n

87.\u00a0\u00a0 Azzam, K.G.; Jacobs, G.; Shafer, W.D.; Davis, B.H., \u201cDehydrogenation of propane over Pt\/KL catalyst: Investigating the role of L-zeolite structure on catalyst performance using isotope labeling,\u201d Applied Catalysis A: General 390 (2010) 264-270.<\/p>\n

86.\u00a0\u00a0 Pendyala, V.R.R.; Jacobs, G.; Mohandas, J.C.; Luo, M.; Ma, W., Gnanamani, M.; Davis, B.H., \u201cFischer-Tropsch synthesis: attempt to tune FTS and WGS by alkali promoting of iron catalysts,\u201d Applied Catalysis A: General 389 (2010) 131-139.<\/p>\n

85.\u00a0\u00a0 Jacobs, G.; Ma, W.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L., \u201cFischer-Tropsch synthesis:\u00a0 TPR-XAFS analysis of Co\/silica and Co\/alumina catalysts comparing a novel NO calcination method with conventional air calcination,\u201d Catalysis Letters 140 (2010) 106-115.<\/p>\n

84.\u00a0\u00a0 Pendyala, V.R.R.; Jacobs, G.; Mohandas, J.C.; Luo, M.-S.; Hamdeh, H.H., Ji, Y.; Ribeiro, M.C.; Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of water over iron-based catalysts,\u201d Catalysis Letters 140 (2010) 98-105.<\/p>\n

83.\u00a0\u00a0 Ribeiro, M.C.; Jacobs, G.; Azzam, K.G.; Linganiso, L.; Davis, B.H., \u201cLow temperature water-gas shift: differences in oxidation states observed with partially reduced Pt\/MnOX and Pt\/CeOX catalysts yield differences in OH group reactivity,\u201d Catalysis Communications 11 (2010) 1193-1199.<\/p>\n

82.\u00a0\u00a0 Jacobs, G. and Davis, B.H., \u201cConversion of biomass to liquid fuels and chemicals via the Fischer-Tropsch synthesis route,\u201d in Thermochemical Conversion of Biomass to Liquid Fuels and Chemicals (ed. M. Crocker), Royal Society of Chemistry Publishing, Cambridge, The United Kingdom, 2010, pp. 95-124.<\/p>\n

81.\u00a0\u00a0 Ribeiro, M.C.; Jacobs, G.; Davis, B.H.; Cronauer, D.; Kropf, A.J.; Marshall, C.L., \u201cFischer-Tropsch synthesis: an in-situ EXAFS\/XANES study of the influence of Group I alkaline promoters on the structure of carbidized iron catalysts,\u201d Journal of Physical Chemistry C,\u00a0 114 (2010) 7895-7903.<\/p>\n

80.\u00a0\u00a0 de Lima, S.M.; da Silva, A.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; Noronha, F.B., \u201cNew approaches to improving catalyst stability over Pt\/ceria during ethanol steam reforming:\u00a0 Sn addition and CO2 co-feeding,\u201d Applied Catalysis B: Environmental 96 (2010) 387-398.<\/p>\n

79.\u00a0\u00a0 Jacobs, G.; Davis, B.H., \u201cSurface interfaces in low temperature water-gas shift:\u00a0 the metal-oxide synergy, the assistance of co-adsorbed water, and alkali doping,\u201d International Journal of Hydrogen Energy 35 (2010) 3522-3536.<\/p>\n

78.\u00a0\u00a0 de Lima, S.M.; da Silva, A.M.; da Costa, L.O.O.; Assaf, J.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; Noronha, F.B., \u201cEvaluation of the performance of Ni\/La2O3 catalyst prepared from LaNiO3 perovskite-type oxides for the production of hydrogen through steam reforming and oxidative steam reforming of ethanol,\u201d Applied Catalysis A: General 377 (2010) 181-190.<\/p>\n

77.\u00a0\u00a0 Azzam, K.G.; Shafer, W.D.; Jacobs, G.; Davis, B.H., \u201cAromatization of n-hexane over Pt\/KL catalyst: Role of intracrystalline diffusion on catalyst performance using isotope labeling,\u201d Journal of Catalysis 270 (2010) 242-248.<\/p>\n

76.\u00a0\u00a0 Gnanamani, M.K.; Jacobs, G.; Graham, U.M.; Ma, W.; Pendyala, V.R.R.; Ribeiro, M.C.; Davis, B.H., \u201cStudies on KIT-6 supported cobalt catalyst for Fischer-Tropsch synthesis,\u201d Catalysis Letters 134 (2010) 37-44.<\/p>\n

75.\u00a0\u00a0 Jacobs, G.; Ma, W.; Ji, Y.; Khalid, S.; Davis, B.H., “Characterization of Co\/silica catalysts prepared by a novel NO calcination method,” Chapter 8, Advances in Fischer-Tropsch Synthesis, Catalysts and Catalysis, CRC Press, Taylor & Francis Group, Boca Raton, Florida, 2010, pp. 147-164.<\/p>\n

74.\u00a0\u00a0 Ma, W.; Jacobs, G.; Gnanamani, M.K.; Graham, U.M.; Davis, B.H., “Effect of novel metal nitrate calcination on the catalytic behavior of silica supported cobalt catalyst during Fischer-Tropsch synthesis, and impact on slurry phase kinetics,” Chapter 3, Advances in Fischer-Tropsch Synthesis, Catalysts and Catalysis, CRC Press, Taylor & Francis Group, Boca Raton, Florida, 2010, pp. 31-48.<\/p>\n

73.\u00a0\u00a0 Jacobs, G.; Sarkar, A.; Davis, B.H.; Cronauer, D.; Kropf, A.J.; Marshall, C.L., \u201cTemperature programmed EXAFS\/XANES characterization of the impact of Cu and alkali promoters to iron-based catalysts on the carbide formation rate,\u201d Chapter 7, Advances in Fischer-Tropsch Synthesis, Catalysts and Catalysis, CRC Press, Taylor & Francis Group, Boca Raton, Florida, 2010, pp. 119-146.<\/p>\n

72.\u00a0\u00a0 Pigos, J.M.; Brooks, C.J.; Jacobs, G.; Davis, B.H. (with Honda Research USA Inc.); \u201cLow temperature water-gas shift:\u00a0 assessing formates as potential intermediates over Pt\/ZrO2 and Na doped Pt\/ZrO2 catalysts employing the SSITKA-DRIFTS technique,\u201d Chapter 19, Advances in Fischer-Tropsch Synthesis, Catalysts and Catalysis, CRC Press, Taylor & Francis Group, Boca Raton, Florida, 2010, pp. 365-394.<\/p>\n

71.\u00a0\u00a0 Sarkar, A.; Jacobs, G.; Mukoma, P.; Glasser, D.; Hildebrandt, D.; Coville, N.; Davis, B.H., \u201cFischer-Tropsch Synthesis:\u00a0 comparison of the effect of co-fed water on the catalytic performance of Co catalysts supported on wide-pore and narrow-pore alumina,\u201d Chapter 14, Advances in Fischer-Tropsch Synthesis, Catalysts and Catalysis, CRC Press, Taylor & Francis Group, Boca Raton, Florida, 2010, pp. 243-268.<\/p>\n

70.\u00a0\u00a0 de Lima, S.M.; da Silva, A.M.; da Costa, L.O.O.; Graham, U.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; Noronha, F.B., \u201cStudy of catalyst deactivation and reaction mechanism of steam reforming, partial oxidation, and oxidative steam reforming of ethanol over Co\/CeO2 catalyst,\u201d Journal of Catalysis 268 (2009) 268\u2013281.<\/p>\n

69.\u00a0\u00a0 Graham, U.M.; Khatri, R.A.; Dozier, A.; Jacobs, G.; Davis, B.H., \u201c3D Ridge-valley structure of a Pt-Ceria catalyst: HR-TEM and EELS spectrum imaging,\u201d Catalysis Letters 132 (2009) 335-341.<\/p>\n

68.\u00a0\u00a0 de Lima, S.M.; de C\u00e1ssia Colmon, R.; Jacobs, G.; Davis, B.H.; Souza, K.R.; de Lima, A.F.F.; Appel, L.G.; Mattos, L.V., \u201cHydrogen production from ethanol for PEM fuel cells. An integrated fuel processor comprising ethanol steam reforming and preferential oxidation of CO,\u201d Catalysis Today 146 (2009) 110-123.<\/p>\n

67.\u00a0\u00a0 Jacobs, G.; Ribeiro, M.C.; Ma, W.; Ji, Y.; Khalid, S.; Sumodjo, P.T.A.; Davis, B.H., \u201cGroup 11 (Cu, Ag, Au) promotion of 15%Co\/Al2O3 Fischer-Tropsch synthesis catalysts,\u201d Applied Catalysis A: General 361 (2009) 137-151.<\/p>\n

66.\u00a0\u00a0 Jacobs, G.; Milling, M.; Ji, Y.; Patterson, P.M., Sparks, D.E., and Davis, B.H., \u201cCharacterizing HfXZr1-XO2 by EXAFS:\u00a0 relationship between bulk and surface composition, and impact on catalytic selectivity for alcohol conversion,\u201d Catalysis Letters 127 (2009) 248-259.<\/p>\n

65.\u00a0\u00a0 de Lima, S.M.; Graham, U.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; and Noronha, F.B., \u201cEthanol decomposition and steam reforming of ethanol over CeZrO2 and Pt\/CeZrO2 catalyst.\u00a0 Reaction mechanism and deactivation,\u201d Applied Catalysis A: General 352 (2009) 95-113.<\/p>\n

64.\u00a0\u00a0 Shen, W.; Huggins, F.E.; Shah, N.; Jacobs, G.; Wang, Y.; Shi, X.; Huffman, G.P., \u201cNovel Fe-Ni nanoparticle catalyst for the production of CO- and CO2-free H2 and carbon nanotubes by dehydrogenation of methane,\u201d Applied Catalysis A: General 351 (2008) 102-110.<\/p>\n

63.\u00a0\u00a0 de Lima, S.M.; Silva, A.M.; da Cruz, I.O.; Jacobs, G.; Davis, B.H.; and Noronha, F.B., \u201cH2 Production through Steam Reforming of Ethanol over Pt\/ZrO2, Pt\/CeO2, and Pt\/CeZrO2 Catalysts,\u201d Catalysis Today 138 (2008) 162-168.<\/p>\n

62.\u00a0\u00a0 de Lima, S.M.; Silva, A.M.; da Cruz, I.O.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; and Noronha, F.B., \u201cSteam reforming, partial oxidation, and oxidative steam reforming of ethanol over Pt\/CeZrO2 catalyst,\u201d Journal of Catalysis 257 (2008) 356-368.<\/p>\n

61.\u00a0\u00a0 Evin, H.N.; Jacobs, G.; Ruiz-Martinez, J.; Graham, U.M.; Dozier, A.; Thomas, G.; Davis, B.H., \u201cLow temperature water-gas shift \/ methanol steam reforming: alkali-doping to facilitate the scission of formate and methoxy C-H bonds over Pt\/ceria catalyst,\u201d Catalysis Letters 122 (2008) 9-19.<\/p>\n

60.\u00a0\u00a0 Jacobs, G.; Sarkar, A.; Ji, Y.; Luo, M.-S.; Dozier, A.; Davis, B.H., \u201cFischer-Tropsch synthesis: assessment of the ripening of cobalt clusters and mixing between Co and Ru promoter via oxidation-reduction cycles over lower Co-loaded Ru-Co\/Al2O3 catalysts,\u201d Industrial & Engineering Chemistry Research 47 (2008) 672-680.<\/p>\n

59.\u00a0\u00a0 Sarkar, A.; Jacobs, G.; Luo, M.-S.; Ji, Y.; Hamdeh, H.H.; Davis, B.H., \u201cFischer-Tropsch synthesis with Rb promoted iron catalyst:\u00a0 characterization of active species during reaction,\u201d Catalysis Letters 121 (2008) 1-11.<\/p>\n

58.\u00a0\u00a0 Evin, H.N.; Jacobs, G.; Ruiz-Martinez, J.; Thomas, G.A.; and Davis, B.H., \u201cLow temperature water-gas shift: alkali doping to facilitate formate C-H bond cleaving over Pt\/ceria catalysts – an optimization problem,\u201d Catalysis Letters 120 (2008) 166-178.<\/p>\n

57.\u00a0\u00a0 Jacobs, G. Davis, B.H., \u201cLow temperature water-gas shift:\u00a0 applications of the SSITKA-DRIFTS method under conditions of H2 co-feeding over metal\/ceria and related oxides,\u201d Applied Catalysis A: General 333 (2007) 192-201.<\/p>\n

56.\u00a0\u00a0 Jacobs, G.; Ji, Y.; Davis, B.H.; Cronauer, D.; Kropf, A.J.; Marshall, C.L. (with Argonne National Laboratory); \u201cFischer-Tropsch synthesis: temperature programmed EXAFS\/XANES investigation of the influence of support type, cobalt loading, and noble metal promoter addition to the reduction behavior of cobalt oxide particles,\u201d Applied Catalysis A: General 333 (2007) 177-191.<\/p>\n

55.\u00a0\u00a0 Jacobs, G. and Davis, B.H., \u201cLow temperature water-gas shift catalysts,\u201d book chapter in Catalysis Volume 20, (Specialist Periodical Reports, eds. J.J. Spivey and K.M. Dooley), Royal Society of Chemistry Publishing, Cambridge, The United Kingdom, 2007, pp. 122 – 285.<\/p>\n

54.\u00a0\u00a0 Pigos, J.M.; Brooks, C.J.; Jacobs, G.; Davis, B.H. (with Honda Research USA Inc.), \u201cLow temperature water-gas shift: the effect of alkali doping on the C-H bond of formate over Pt\/ZrO2 catalysts,\u201d Applied Catalysis A: General 328 (2007) 14-26.<\/p>\n

53.\u00a0\u00a0 Crocker, M.; Graham, U.M.; Gonzalez, R.; Jacobs, G.; Morris, E.; Rubel, A.M..; and Andrews, R., \u201cPreparation and characterization of cerium oxide templated from activated carbon,\u201d Journal of Materials Science 42 (2007) 3454-3464.<\/p>\n

52.\u00a0\u00a0 Das, T.K.; Zhan, X.; Li, J.; Jacobs, G.; Dry, M.E.; and Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 kinetics and effect of water for a Co\/Al2O3 catalyst,\u201d book chapter in Fischer-Tropsch Synthesis: Catalysts and Catalysis; B.H. Davis, M. Occelli, eds., Studies in Surface Science and Catalysis 163, Elsevier Science Series, Amsterdam, The Netherlands, 2007, pp. 289-314.<\/p>\n

51.\u00a0\u00a0 Jacobs, G.; Das, T.K.; Li, J.; Luo, M.; Patterson, P.M.; and Davis, B.H.; \u201cFischer-Tropsch synthesis: influence of support on the impact of co-fed water for cobalt-based catalysts,\u201d book chapter in Fischer-Tropsch Synthesis: Catalysts and Catalysis; B.H. Davis, M. Occelli, eds., Studies in Surface Science and Catalysis 163, Elsevier Science Series, Amsterdam, The Netherlands, 2007, pp. 217-254.<\/p>\n

50.\u00a0\u00a0 Pigos, J.M.; Brooks, C.J.; Jacobs, G.; Davis, B.H. (with Honda Research USA Inc.), \u201cLow temperature water-gas shift: characterization of Pt-based ZrO2 catalyst promoted with Na discovered by combinatorial methods,\u201d Applied Catalysis A: General 319 (2007) 47-57.<\/p>\n

49.\u00a0 Jacobs, G.; Keogh, R.A.; Davis, B.H., \u201cSteam Reforming of ethanol over Pt\/Ceria with co-fed hydrogen,\u201d Journal of Catalysis 245 (2007) 326-337.<\/p>\n

48.\u00a0\u00a0 Keane, M.A; Jacobs, G.; Patterson, P.M., \u201cNi\/SiO2 promoted growth of carbon nanofibers from chlorobenzene: characterization of the metal sites,\u201d Journal of Colloid and Interface Science 302 (2006) 576-588.<\/p>\n

47.\u00a0\u00a0 Ji, Y.; Toops, T.J.; Graham, U.M.; Jacobs, G.; Crocker, M.; \u201cA kinetic and DRIFTS study of supported Pt catalysts for NO oxidation,\u201d Catalysis Letters 110 (2006) 29.<\/p>\n

46.\u00a0\u00a0 Sparks, D.E.; Patterson, P.M.; Jacobs, G.; Dogimont, N.; Tackett, A.; Crocker, M.; \u201cBi2O3\/Al2O3 catalysts for the selective reduction of NO with hydrocarbons in lean conditions,\u201d Applied Catalysis B: Environmental 65 (2006) 44-54.<\/p>\n

45.\u00a0\u00a0 Ricote, S.; Jacobs, G.; Milling, M.; Ji, Y.; Patterson, P.M.; and Davis, B.H.; \u201cLow temperature water-gas shift: characterization and testing of binary mixed oxides of ceria and zirconia promoted with Pt,\u201d Applied Catalysis A: General 303 (2006) 35-47.<\/p>\n

44.\u00a0\u00a0 Sparks, D.E.; Patterson, P.M.; Jacobs, G.; Crocker, M.; and Chaney, J.A. (with University of Louisville); \u201cSupported bismuth oxide catalysts for the selective reduction of NO with propene in lean conditions,\u201d Catalysis Communications 7 (2006) 122-126.<\/p>\n

43.\u00a0\u00a0 Jacobs, G.; Ricote, S.; and Davis, B.H.; \u201cLow temperature water-gas shift: type and loading of metal impacts decomposition and hydrogen exchange rates of pseudo-stabilized formate over metal\/ceria catalysts,\u201d Applied Catalysis A: General 302 (2006) 14-21.<\/p>\n

42.\u00a0\u00a0 Jacobs, G.; Ricote, S.; Graham, U.M.; Patterson, P.M., and Davis, B.H.; \u201cLow temperature water gas shift:\u00a0 type and loading of metal impacts forward decomposition of pseudo-stabilized formate over metal\/ceria catalysts,\u201d Catalysis Today 106 (2005) 259-264.<\/p>\n

41.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Graham, U.M.; Crawford, A.C.; Dozier, A.; and Davis, B.H.;\u00a0 \u201cCatalytic links among the water-gas shift, water-assisted formic acid decomposition, and methanol steam reforming reactions over Pt promoted thoria,\u201d Journal of Catalysis 235 (2005) 79-91.<\/p>\n

40.\u00a0\u00a0 Das, T.K.; Conner, W.A.; Li, J.; Jacobs, G.; Dry, M.E.; and Davis, B.H.; \u201cFischer-Tropsch Synthesis: Kinetics and Effect of Water for a Co\/SiO2 Catalyst,\u201d Energy & Fuels 19 (2005) 1430-1439.<\/p>\n

39.\u00a0\u00a0 Jacobs, G.; Ricote, S.; Patterson, P.M.; Graham, U.M.; Dozier, A.; Khalid, S.; Rhodus, E.; and Davis, B.H. (with Brookhaven National Laboratory); \u201cLow temperature water-gas shift: examining the efficiency of Au as a promoter for ceria-based catalysts prepared by CVD of a Au precursor,\u201d Applied Catalysis A: General 292 (2005) 229-243.<\/p>\n

38.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Graham, U.M.; Crawford, A.C.; Davis, B.H.; \u201cLow temperature water-gas shift: the link between the catalysis of WGS and formic acid decomposition over Pt\/ceria,\u201d International Journal of Hydrogen Energy 30 (2005) 1265-1276.<\/p>\n

37.\u00a0\u00a0 Dalai, A.K.; Das, T.K.; Chaudhari, K.V.; Jacobs, G.; and Davis, B.H.; \u201cFischer-Tropsch synthesis:\u00a0 Water effects on Co supported on Wide and Narrow-pore silica,\u201d Applied Catalysis A: General 289 (2005) 135-142.<\/p>\n

36.\u00a0\u00a0 Das, T.K.; Jacobs, G.; and Davis, B.H.; \u201cDeactivation of Promoted and Unpromoted Cobalt-alumina Catalysts,\u201d Catalysis Letters 101 (2005) 187-190.<\/p>\n

35.\u00a0\u00a0 Jacobs, G. and Davis, B.H.; \u201cIn-situ DRIFTS investigation of the steam reforming of methanol over Pt\/ceria,\u201d Applied Catalysis A: General 285 (2005) 43-49.<\/p>\n

34.\u00a0\u00a0 Jacobs, G.; Crawford, A.C.; Davis, B.H.; \u201cWater-gas shift: steady state isotope switching study of the water-gas shift reaction using in-situ DRIFTS over Pt\/ceria,\u201d Catalysis Letters 100 (2005) 147-152.<\/p>\n

33.\u00a0\u00a0 Chenu, E.; Jacobs, G.; Crawford, A.C.; Keogh, R.A.; Patterson, P.M.; Sparks, D.E.; and Davis, B.H.; \u201cWater-gas Shift:\u00a0 an examination of unpromoted and Pt promoted MgO and tetragonal and monoclinic ZrO2 by in-situ DRIFTS,\u201d Applied Catalysis B:\u00a0 Environmental 59 (2005) 45-56.<\/p>\n

32.\u00a0\u00a0 Jacobs, G. and Davis, B.H.; \u201cReverse water-gas shift: steady state isotope switching study of the reverse water-gas shift reaction using in-situ DRIFTS over Pt\/ceria,\u201d Applied Catalysis A: General 284 (2005) 31-38.<\/p>\n

31.\u00a0\u00a0 Shi, B.; Jacobs, G.; Sparks, D.E.; and Davis, B.H.; \u201cFischer-Tropsch Synthesis:\u00a0 14C Labeled 1-alkene conversion using supercritical conditions with Co\/Al2O3,\u201d Fuel 84 (2005) 1093-1098.<\/p>\n

30.\u00a0\u00a0 Jacobs, G.; Graham, U.M.; Chenu, E.; Patterson, P.M.; Dozier, A., and Davis, B.H.; \u201cLow temperature water-gas shift: impact of Pt promoter loading on the partial reduction of ceria, and consequences for catalyst design,\u201d Journal of Catalysis 229 (2005) 499-512.<\/p>\n

29.\u00a0\u00a0 Das, T.K.; Conner, W.A.; Jacobs, G.; Li, J.; Chaudhari, K.; and Davis, B.H.; \u201cFischer-Tropsch Synthesis: Effect of water on activity and selectivity for a cobalt catalyst,\u201d Studies in Surface\u00a0 Science and Catalysis 147 (2004) 331-336.<\/p>\n

28.\u00a0\u00a0 Jacobs, G.; Chaney,\u00a0 J.A.; Patterson, P.M.; Das, T.K.; Maillot, J.C.; and Davis, B.H.; \u201cFischer-Tropsch Synthesis:\u00a0 Study of the promotion of Pt on the reduction property of Co\/Al2O3 catalysts by in-situ EXAFS of Co K and Pt LIII Edges,\u201d Journal of Synchrotron Radiation 11 (2004) 414-422.<\/p>\n

27.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Calico-Williams, L.; Sparks, D.E.; and Davis, B.H.; \u201cLow Temperature Water-Gas Shift:\u00a0 Role of pretreatment on formation of surface carbonates and formates,\u201d Catalysis Letters 96 (2004) 97-105.<\/p>\n

26.\u00a0\u00a0 Jacobs, G.; Das, T.K.; Patterson, P.M.; Luo, M.; Conner, W.A.; and Davis, B.H.; \u201cFischer-Tropsch Synthesis:\u00a0 Effect of Water of Co\/Al2O3 catalysts and XAFS characterization of reoxidation phenomena,\u201d Applied Catalysis A: General 270 (2004) 65-76.<\/p>\n

25.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Graham, U.M.; Sparks, D.E.; and Davis, B.H.; \u201cLow temperature water-gas shift: kinetic isotope effect observed for decomposition of surface formates for Pt\/ceria catalysts,\u201d Applied Catalysis A: General 269 (2004) 63-73.<\/p>\n

24.\u00a0\u00a0 Jacobs, G.; Khalid, S.; Patterson, P.M., Sparks, D.E.; and Davis, B.H. (with Brookhaven National Laboratory); \u201cKinetic isotope effect identifies surface formates in rate limiting step for Pt\/ceria catalysts,\u201d Applied Catalysis A: General 268 (2004) 255-266.<\/p>\n

23.\u00a0\u00a0 Jacobs, G.; Crawford, A.C.; Calico-Williams, L.; Patterson, P.M.; and Davis, B.H.; \u201cLow temperature water-gas shift: comparison of thoria and ceria catalysts,\u201d Applied Catalysis A: General 267 (2004) 27-33.<\/p>\n

22.\u00a0\u00a0 Murthy, K.V.; Patterson, P.M.; Jacobs, G.; Davis, B.H.; and Keane, M.A.; \u201cAn exploration of activity loss during hydrodechlorination and hydrodebromination over Ni\/SiO2,\u201d Journal of Catalysis 223 (2004) 74-85.<\/p>\n

21.\u00a0\u00a0 Jacobs, G.; Chaney, J.A.; Patterson, P.M.; Das, T.K.; and Davis, B.H.; \u201cFischer-Tropsch Synthesis:\u00a0 Study of the promotion of Re on the reduction property of Co\/Al2O3 catalysts by in-situ EXAFS of Co K and Re LIII Edges,\u201d Applied Catalysis A: General 264 (2004) 203-212.<\/p>\n

20.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Calico-Williams, L.; Chenu, E.; Sparks, D.E.; Thomas, G.; and Davis, B.H.; \u201cWater-gas Shift: in-situ spectroscopic studies of noble metal promoted ceria catalysts for CO removal in fuel cell reformers and mechanistic implications,\u201d Applied Catalysis A: General 262 (2004) 177-187.<\/p>\n

19.\u00a0\u00a0 Jacobs, G.; Chenu, E.; Patterson, P.M.; Calico-Williams, L.; Sparks, D.E.; Thomas, G.; and Davis, B.H.; \u201cWater-gas Shift: Comparative Screening of Metal Promoters for Metal-ceria Systems and Role of the Metal,\u201d Applied Catalysis A: General 258 (2004) 203-214.<\/p>\n

18.\u00a0\u00a0 Jacobs, G.; Calico-Williams, L.; Graham, U.M.; Thomas, G.A.; Sparks, D.E.; and Davis, B.H.; \u201cLow Temperature Water Gas Shift:\u00a0 in-situ DRIFTS-Reaction Study of Ceria Surface Area on the Evolution of Formates for Pt\/CeO2 Fuel Cell Reformer Catalyst,\u201d Applied Catalysis A: General 252 (2003) 107-118.<\/p>\n

17.\u00a0\u00a0 Jacobs, G.; Calico-Williams, L.M.; Graham, U.M.; and Davis, B.H.; \u201cLow Temperature Water-Gas Shift:\u00a0 in-situ DRIFTS-reaction study of a Pt\/CeO2 catalyst for the WGS reaction,\u201d Journal of Physical Chemistry B 107 (2003) 10398-10404.<\/p>\n

16.\u00a0\u00a0 Jacobs, G.; Das, T.K.; Patterson, P.M.; Li, J.; Sanchez, L.; and Davis, B.H.; \u201cFischer Tropsch Synthesis:\u00a0 XAFS Studies of the effect of water on a Pt promoted Co\/Al2O3 catalyst\u201d, Applied Catalysis A: General 247 (2003) 335-343.<\/p>\n

15.\u00a0\u00a0 Jacobs, G.; Chaudhari, K.; Sparks, D.E.; Zhang, Y.; Shi, B.; Spicer, R.L.; Das, T.K.; Li, J.; and Davis, B.H. “Fischer-Tropsch synthesis: supercritical conversion using a Co\/Al2O3 catalyst in a fixed bed reactor,” Fuel 82 (2003) 1251-1260.<\/p>\n

14.\u00a0\u00a0 Das, T.K.; Jacobs, G.; Patterson, P.M.; Conner, W.A.; and Davis, B.H.; “Fischer-Tropsch synthesis: characterization and catalytic properties of rhenium promoted cobalt alumina catalysts,” Fuel 82 (2003) 805-815.<\/p>\n

13.\u00a0\u00a0 Li, J.; Jacobs, G.; Das, T.K.; Zhang Y.; and Davis, B.H.; “Fischer-Tropsch synthesis: effect of water on the catalytic properties of a Co\/SiO2 catalyst,” Applied Catalysis A: General 236 (2002) 67-76.<\/p>\n

12.\u00a0\u00a0 Jacobs, G.; Das, T.K.; Zhang, Y.; Li, J.; Racoillet, G.; and Davis, B.H.; “Fischer-Tropsch synthesis: support, loading and promoter effects on the reducibility of cobalt catalysts,” Applied Catalysis A: General 233 (2002) 263-281.<\/p>\n

11.\u00a0\u00a0 Li, J.; Jacobs, G.; Das, T.K.; and Davis, B.H.; “Fischer-Tropsch synthesis: effect of water on the catalytic properties of a ruthenium promoted Co\/TiO2 catalyst,” Applied Catalysis A: General 233 (2002) 255-262.<\/p>\n

10.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Zhang, Y.; Das, T.K.; Li, J.; and Davis, B.H.; “Fischer-Tropsch synthesis: deactivation of noble metal-promoted Co\/Al2O3 catalysts,” Applied Catalysis A: General 233 (2002) 215-226.<\/p>\n

9. \u00a0\u00a0\u00a0 Li, J.; Zhan, X.; Zhang, Y.; Jacobs, G.; Das, T.K.; and Davis, B.H.; “Fischer-Tropsch synthesis: effect of water on the deactivation of Pt promoted Co\/Al2O3 catalysts,” Applied Catalysis A: General 228 (2002) 203-212.<\/p>\n

8. \u00a0\u00a0\u00a0 Li, J.; Jacobs, G.; Zhang, Y.; Das, T.K.; and Davis, B.H.; “Fischer-Tropsch synthesis: effect of small amounts of boron, ruthenium and rhenium on Co\/TiO2 catalysts,” Applied Catalysis A: General 223 (2002) 195-203.<\/p>\n

7.\u00a0\u00a0\u00a0\u00a0 Zhang, Y.; Jacobs, G.; Sparks, D.E.; Dry, M.E.; and Davis, B.H.; “CO and CO2 hydrogenation study on supported cobalt Fischer-Tropsch synthesis activity of Co\/TiO2 catalysts,” Catalysis Today 71 (2002) 411-418.<\/p>\n

6.\u00a0\u00a0\u00a0\u00a0 Jacobs, G.; Zhang, Y.; Das, T.K.; Li, J.; Patterson, P.M.; and Davis, B.H.; “Deactivation of a Ru promoted Co\/Al2O3 catalyst for FT synthesis,” Catalyst Deactivation 2001, (Spivey, J.J.; Roberts, G.W.; Davis, B.H., eds.), Elsevier, Studies in Surface Science and Catalysis 139 (2001) 415-422.<\/p>\n

5. \u00a0\u00a0\u00a0 Jacobs, G.; Alvarez, W.E.; and Resasco, D.E.; \u201cStudy of preparation parameters of powder and pelletized Pt\/KL catalysts for n-hexane aromatization,\u201d Applied Catalysis A: General 206 (2001) 267-282.<\/p>\n

4.\u00a0\u00a0\u00a0\u00a0 Ghadiali, F.A.; Jacobs, G.; Pisanu, A.M.; Borgna, A.; Alvarez, W.E.; and Resasco, D.E.; \u201cRegeneration and oxidation-reduction cycles of vapor phase and incipient wetness impregnation Pt\/KL catalysts,\u201d Studies in Surface Science and Catalysis 130 (2000) 2537-2542.<\/p>\n

3.\u00a0\u00a0\u00a0\u00a0 Jacobs, G.; Ghadiali, F.A.; Padro, C.L.; Borgna, A.; Alvarez, W.E.; and Resasco, D.E.; \u00a0 \u201cIncreased sulfur tolerance of Pt\/KL zeolite catalysts prepared by vapor-phase impregnation\u00a0 and containing a Tm promoter,\u201d\u00a0 Journal of Catalysis 191 (2000) 116-127.<\/p>\n

2.\u00a0\u00a0\u00a0\u00a0 Jacobs,G.; Ghadiali, F.A.; Pisanu, A.M.; Borgna, A.; Alvarez, W.E.; and Resasco, D.E.; \u201cCharacterization of the morphology of Pt clusters incoporated in a KL zeolite by vapor phase and incipient wetness impregnation.\u00a0 Influence of Pt particle morphology on aromatization activity and deactivation,\u201d Applied Catalysis A: General 188 (1999) 79-98. (dedicated to Prof. W. Sachtler).<\/a><\/p>\n

1.\u00a0\u00a0\u00a0\u00a0 Jacobs, G.; Padro, C.L.; and Resasco, D.E.; \u201cComparative study of n-hexane aromatization on Pt\/KL, Pt\/Mg(Al)O, and Pt\/SiO2 catalysts: clean and sulfur-containing feeds,\u201d\u00a0 Journal of Catalysis 179 (1998) 43-55.<\/p>\n

US PATENTS<\/strong><\/p>\n

Tiedtke, D.B.; Cheung, P.T.-T.; Resasco, D.E.; Jacobs, G.<\/strong>, U.S. Patent No. 6,406,614\u00a0 Method for Zeolite Platinization (2001).<\/p>\n

Resasco, D.E.; Padro, C.L.; Jacobs, G.<\/strong>; Liu, H., U.S. Patent No. 6,063,724\u00a0 Sulfur-tolerant aromatization catalysts (2000).<\/p>\n

Resasco, D.E.; Padro, C.L.; Jacobs, G.<\/strong>; Liu, H., U.S. Patent No. 6,096,193\u00a0 Sulfur-tolerant aromatization catalysts (2000).<\/p>\n

Resasco, D.E.; Padro, C.L.; Jacobs, G.<\/strong>; Liu, H., US Patent No. 6,096,675\u00a0 Sulfur-tolerant aromatization catalysts (2000).<\/a><\/p>\n

INTERNATIONAL PATENTS <\/strong><\/p>\n

related to US 6,406,614:\u00a0 EP1259320, AU2001021115, WO 2001045841, JP 2003517925, and CA 2391295.<\/p>\n

PRESENTATIONS AND NON-REFEREED PUBLICATIONS<\/strong><\/p>\n

189. Megafu, D.; McFee, B.; Martinelli, M.; Jacobs, G., \u201cMethanol steam reforming: Basicity effect of alkali-Pt\/m-ZrO2<\/sub>\u00a0catalysts,\u201d\u00a029th\u00a0North\u00a0American Catalysis Society Meeting<\/i>, June 8 – 13, 2025, Atlanta, GA, USA.<\/p>\n

188. Ma, W.; Martinelli, M.; Das, T.K.; Ovalles, C.; Jacobs, G.; Qian, D.; Santillan-Jimenez, E., \u201cCOX<\/sub> hydrogenation on Fe and Co catalysts: An efficient approach to carbon neutrality,\u201d 3rd International Conference on Energy and Environment<\/em>, July 16-19, 2024, Lexington, Kentucky, USA.<\/p>\n

187. Almeida, M.P.; Rabelo-Neto, R.C.; Jacobs, G.; Akri, M.; Paul, S.; Noronha, F.B., \u201cStudy of the effect of support on the mechanism of CO2<\/sub> hydrogenation by in situ spectroscopy,\u201d 18th<\/sup> International Congress on Catalysis Satellite Conference: Symposium Chem One:\u00a0 International Symposium Catalytic Chemistry of C1 Molecules<\/em>, July 10-12, 2024, Lille, France.<\/p>\n

186. Martinelli, M.; Rajabi, Z.; Upton, G.F.; Jones, L.; Garcia, R.; Watson, C.D.; Cronauer, D.C.; Kropf, A.J.; Jacobs, G., \u201cThe role of alkali promoters for the hydrogen production via ethanol steam reforming on Pt\/ZrO2<\/sub> catalyst,\u201d The 27th Canadian Symposium on Catalysis<\/em>, May 12-15, 2024, Sherbrooke, Quebec, Canada.\u00a0 13th<\/sup> Natural Gas Conversion Symposium (NGCS 13)<\/em>, April 21-25, 2024, Xiamen, China.<\/p>\n

185. Ma, W.; Pendyala, V.R.R.; Yang, J.; Jacobs, G., \u201cFischer-Tropsch synthesis: Reversed conversion and cluster size effects on olefin formation observed with Ru\/NaY relative to Co and Fe catalysts,\u201d 13th<\/sup> Natural Gas Conversion Symposium (NGCS 13)<\/em>, April 21-25, 2024, Xiamen, China.<\/p>\n

184. Jacobs, G., \u201cThe role of promoters in syngas conversion reactions,\u201d Seminar to the chemistry department, UTSA, Sept. 29, 2023.<\/p>\n

183. Martinelli, M.; Garcia, E.S.; Rajabi, Z.; Watson, C.D.; Cronauer, D.C.; Kropf, A.J.; Jacobs, G., \u201cRecycling formaldehyde to hydrogen via steam reforming on alkali promoted Pt\/ZrO2<\/sub> catalysts,\u201d 27th<\/sup> International Symposium on Chemical Reaction Engineering<\/em>, June 11-14, 2023, Quebec City, Quebec, Canada.<\/p>\n

182. Seuser, G.; Martinelli, M.; Garcia, E.S.; Upton, G.F.; Ayala, M.; Villarreal, J.; Rajabi, Z.; Cronauer, D.C.; Kropf, A.J.; Jacobs, G., \u201cSynergy of platinum nanoparticles supported on zirconia and the role of sodium promoter in the catalysis of H2<\/sub> production and CO2<\/sub> conversion reactions,\u201d 27th<\/sup> International Symposium on Chemical Reaction Engineering<\/em>, June 11-14, 2023, Quebec City, Quebec, Canada.<\/p>\n

181.\u00a0 Hocaoglu, Y., Staffel, R., Upton, G., Garcia, E.S., Cronauer, D.C., Kropf, A.J., Martinelli, M., Seuser, G., Jacobs, G., \u201cNa-doping promotes CO and hydrocarbon formation over Ru\/m-ZrO2<\/sub> during CO2<\/sub> hydrogenation at 20 bar,\u201d AICHE Annual Meeting<\/em>, Phoenix, Arizona, November 13 \u2013 18, 2022.<\/p>\n

180. Rajabi, Z., Martinelli, M., Watson, C.D., Cronauer, D.C., Kropf, A.J., Jacobs, G., “Lithium promotion of Pt\/m-ZrO2<\/sub> for low temperature water-gas shift,” 27th North American Catalysis Society Meeting<\/em>, New York City, NY, May 22 – 27, 2022.<\/p>\n

179. Martinelli, M., Mehrbod, M., Cronauer, D.C., Kropf, A.J., Jacobs, G., “Altering the cobalt-support interaction in Fischer-Tropsch synthesis,” 27th North American Catalysis Society Meeting<\/em>, New York City, NY, May 22 – 27, 2022.<\/p>\n

178. Rabelo-Neto, R.C., Almeida, M.P., Ayala, M., Watson, C.D., Villarreal, J., Cronauer, D.C., Kropf, A.J., Martinelli, M., Noronha, F.B., Jacobs, G., “Selectivity control using Na doping for CO2<\/sub> hydrogenation over Ru\/ZrO2<\/sub> at low pressure,” 27th North American Catalysis Society Meeting<\/em>, New York City, NY, May 22 – 27, 2022.<\/p>\n

177. Rajabi, Z., Martinelli, M., Watson, C.D., Cronauer, D.C., Kropf, A.J., Jacobs, G., “Potential of Cs as a promoter of Pt\/m-ZrO2<\/sub> catalysts in the low temperature water-gas shift and ethanol steam reforming reactions,” ACS Spring National Meeting<\/em>, Mar. 20 – 24, 2022, San Diego, CA.<\/p>\n

176.\u00a0 Jacobs, G., “Overview of the Contributions of Burtron H. Davis to Catalysis,” ACS National Meeting & Expo<\/em>, Aug. 21 – 25, San Diego, CA.<\/p>\n

175.\u00a0 Shafer, W.D., Gnanamani, M., Graham, U.M., Yang, J., Masuku, C.M., Jacobs, G., Davis, B.H., “Fischer\u2013Tropsch: Product selectivity, the fingerprint of synthetic fuels,” ACS National Meeting & Expo<\/em>, Aug. 21 – 25, San Diego, CA.<\/p>\n

174.\u00a0 Gnanamani, M., Cronauer, D.C., Kropf, A.J., Marshall, C.L., Garcia, R., Jacobs, G., Martinelli, M., Shafer, W.D., “Vapor phase dehydration of 1,5-pentanediol over CeO2<\/sub>-based catalysts,” ACS National Meeting & Expo<\/em>, Aug. 21 – 25, San Diego, CA.<\/p>\n

173.\u00a0 Mehrbod, M., Martinelli, M., Martino, A., Castro, J., Cronauer, D.C., Kropf, A.J., Marshall, C.L., Jacobs, G., <\/strong>“Fischer-Tropsch synthesis: Direct cobalt nitrate reduction and use of promoters using supports with different interactions,” ACS National Meeting & Expo<\/em>, Aug. 21 – 25, San Diego, CA.<\/p>\n

172.\u00a0 Jalama, K., Ma, W., Jacobs, G., Sparks, D., Qian, D., Davis, B.H., “Fischer-Tropsch synthesis over Pt\/Co\/Al2<\/sub>O3<\/sub> catalyst: Improvement in catalyst stability by activation with diluted CO,” ACS National Meeting & Expo<\/em>, Aug. 21 – 25, San Diego, CA.<\/p>\n

171.\u00a0 Martinelli, M., Watson, C.D., Jacobs, G., “Sodium addition promotes C-C scission during ethanol steam reforming,” ACS National Meeting & Expo<\/em>, Aug. 21 – 25, San Diego, CA.<\/p>\n

170.\u00a0 Martinelli, M.; Mehrbod, M.; Martino, A.G.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L., Jacobs, G., “Direct Reduction of Cobalt in Catalysts for the Fischer-Tropsch Synthesis: Effect of Metal-Support Interaction,” 26th North American Catalysis Society Meeting<\/em>, Chicago, Il, June 23 – 28, 2019.<\/p>\n

169.\u00a0 Shafer, W.D.; Jacobs, G.; Graham, U.M.; Hamdeh, H.H.; Davis, B.H., \u201cIncreased CO2 hydrogenation to liquid products using promoted iron catalysts,\u201d 12th<\/sup> Natural Gas Conversion Symposium<\/em>, San Antonio, TX, June 2 \u2013 6, 2019.<\/p>\n

168.\u00a0 Merhbod, M.; Martinelli, M.; Martino, A.G.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L.; Jacobs, G. (speaker), \u201cImproved Co\/Ti catalysts by direct reduction of cobalt nitrate and the incorporation of promoters,\u201d 12th<\/sup> Natural Gas Conversion Symposium<\/em>, San Antonio, TX, June 2 \u2013 6, 2019.<\/p>\n

167.\u00a0 Mehrbod, M.; Martinelli, M.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L., Jacobs, G. “Fischer-Tropsch synthesis: Direct cobalt nitrate reduction and use of promoters leads to improved performance with silica and titania,” 3rd International Conference on Catalysis and Chemical Engineering<\/em>, Houston, Texas, USA February 25 – 27, 2019.<\/p>\n

166.\u00a0 Jacobs, G.; Shafer, W.D.; Graham, U.M.; Martinelli, M.; Hu, Y.; Davis, B.H., \u201cSoft x-ray and TEM characterization of sulfur poisoned Pt\/KL catalysts for the aromatization of hexane,\u201d 255th American Chemical Society National Meeting & Exposition, New Orleans, Louisiana, USA March 18 \u2013 22, 2018.<\/p>\n

165.\u00a0 Mehrbod, M.; Jacobs, G.; Martinelli, M.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L., \u201cFischer-Tropsch synthesis: Improved conversion and selectivity with Co\/silica foregoing calcination and utilizing reduction promoters,\u201d 255th American Chemical Society National Meeting & Exposition, New Orleans, Louisiana, USA March 18 \u2013 22, 2018.<\/p>\n

164.\u00a0 Ma, W.; Shafer, W.D.; Yang, J.; Sparks, D.E.; Jacobs, G.; Davis, B.H., “Fischer-Tropsch synthesis: deuterium kinetic isotopic effect on an iron based catalyst,” 25th Meeting of the North American Catalysis Society, Denver, Colorado, USA June 4-9, 2017.<\/p>\n

163.\u00a0 Gnanamani, M.K.; Hamdeh, H.H.; Jacobs, G.; Shafer, W.D.; Hopps, S.; Thomas, G.A.; Davis, B.H., “Hydrogenation of carbon dioxide over K-promoted FeCo bimetallic catalysts prepared from mixed metal oxalates,” 25th Meeting of the North American Catalysis Society, Denver, Colorado, USA June 4-9, 2017.<\/p>\n

162.\u00a0 Davis, B.H.; Jacobs, G.; Gnanamani, M.K.; Martinelli, M.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L.; Shafer, W.D., “CO Hydrogenation: activation of Ga, In doped Ag-promoted Co\/ceria,” 25th Meeting of the North American Catalysis Society, Denver, Colorado, USA June 4-9, 2017.<\/p>\n

161.\u00a0 Noronha, F.B.; Teles, C.A.; de Souza, P.M.; Rabelo-Neto, R.C.; Jacobs, G.; Davis, B.H.; Resasco, D.E., “Hydrodeoxygenation of phenol over Pd\/CeXZr1-XO2 catalysts: the role of oxygen vacancies on the reaction,” 25th Meeting of the North American Catalysis Society, Denver, Colorado, USA June 4-9, 2017.<\/p>\n

160. Teles, C.A., Rabelo-Neto, R.C., de Lima, J.R., Mattos, L.V., Jacobs, G., Resasco, D.E., Noronha, F.B., \u201cThe effect of metal type on hydrodeoxygenation of phenol over silica and zirconia supported catalysts,\u201d The 16th International Congress on Catalysis, Beijing, China, July 3-8, 2016.<\/p>\n

159. de Souza, P.M., Rabelo-Neto, R.C., Borges, L.E.P., Jacobs, G., Davis, B.H., Resasco, D.E., Noronha, F.B., \u201cHydrodeoxygenation of phenol over Pd catalysts: effect of support on reaction mechanism and catalyst deactivation,\u201d The 16th International Congress on Catalysis, Beijing, China, July 3-8, 2016.<\/p>\n

158. Ma, W., Jacobs, G., Sparks, D.E., Shafer, W.D., Davis, B.H., \u201cEffect of H2S in syngas on the Fischer-Tropsch synthesis performance of cobalt and iron based catalysts,\u201d The 16th International Congress on Catalysis, Beijing, China, July 3-8, 2016.<\/p>\n

157. Gnanamani, M.K., Jacobs, G., Pendyala, V.R.R., Sparks, D.E., Hopps, S.D., Thomas, G.A., Davis, B.H. (presenter), \u201cEffect of phosphorous addition on reducibility and Fischer-Tropsch synthesis activity of cobalt supported on silica,\u201d NGCS 11, Tromso, Norway, June 5-9, 2016.<\/p>\n

156. Bertaux, C., Jacobs, G. (presenter), Pendyala, V.R.R., Shafer, W.D., Davis, B.H., \u201cPore filled Co\/Al2O3 catalysts exhibit higher C5+ and lower light gas selectivities,\u201d NGCS 11, Tromso, Norway, June 5-9, 2016.<\/p>\n

155. Sparks, D.E., Jacobs, G., Gnanamani, M.K., Pendyala, V.R.R., Ma, W., Shafer, W.D., Graham, U.M., Davis, B.H. (speaker), \u201cFischer-Tropsch synthesis: poisoning studies for Co and Fe catalysts,\u201d NGCS 11, Tromso, Norway, June 5-9, 2016.<\/p>\n

154. Jacobs, G., Ma, W., Pendyala, V.R.R., Sparks, D.E., Gnanamani, M.K., Shafer, W.D., Graham, U.M., Davis, B.H., \u201cFischer-Tropsch synthesis: use of hard and soft X-rays in the characterization of catalysts and contaminants,\u201d Plenary Lecture, NGCS 11, Tromso, Norway, June 5-9, 2016.<\/p>\n

153. Jacobs, G., Bertaux, C., Pendyala, V.R.R., Shafer, W.D., Davis, B.H., \u201cFischer-Tropsch synthesis: Improved C5+ selectivity with pore-modified alumina,\u201d Div. of Catal. Sci. and Tech., 251st ACS National Meeting & Exposition, Mar. 13-17, 2016, San Diego, CA.<\/p>\n

152. Gnanamani, M.K.; Hamdeh, H.H.; Jacobs, G., Shafer, W.D., Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of Cu, Mn, and Zn addition on the activity and product selectivity of cobalt ferrite catalyst,\u201d Div. of Catal. Sci. and Tech., 251st ACS National Meeting & Exposition, Mar. 13-17, 2016, San Diego, CA.<\/p>\n

151. Pendyala, V.R.R., Jacobs, G., Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of ammonia on supported cobalt catalysts,\u201d Div. of Catal. Sci. and Tech., 251st ACS National Meeting & Exposition, Mar. 13-17, 2016, San Diego, CA.<\/p>\n

150.\u00a0\u00a0\u00a0\u00a0 de Souza, P.M.; Rabelo-Neto, R.C.; Borges, L.E.P.; Jacobs, G.; Davis, B.H.; Resasco, D.E.; Noronha, F.B., \u201cHydrogenation of phenol over Pd catalysts.\u00a0 Effect of support\u201d, 3rd International Congress on Catalysis for Biorefineries, Rio de Janeiro, Brazil, Sep. 27-30, 2015.<\/p>\n

149. Ma, W.; Graham, U.M.; Jacobs, G.; Todic, B.; Bukur, D.B., Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of CO conversion on product selectivities during deactivation by oxidation or by changing space velocity at stable conditions over unpromoted and Ru promoted 25%Co\/Al2O3 catalysts,\u201d 250th ACS National Meeting & Exposition, Aug. 16-20, 2015, Boston, MA.<\/p>\n

148. Linganiso, L.; Jacobs, G.; Davis, B.H., \u201cLow temperature water gas shift: TPR-XANES investigation of Pt\/ceria catalysts doped with calcium,\u201d 250th ACS National Meeting & Exposition, Aug. 16-20, 2015, Boston, MA.<\/p>\n

147. Jacobs, G., Shafer, W.D., Azzam, K., Davis, B.H., \u201cOverview of isotopic tracer studies of hexane aromatization on Pt\/KL catalysts,\u201d Symposium honoring Professor Gary L. Haller of Yale University, 250th ACS National Meeting & Exposition, Aug. 16-20, 2015, Boston, MA.<\/p>\n

146. Jacobs, G., \u201cCatalysis at the metal-support interface for energy applications,\u201d invited lecture, Ecole Centrale de Lille, Villeneuve d\u2019Ascq, France, July 21, 2015.<\/p>\n

145. Jacobs, G., \u201cCaract\u00e9risation des catalyseurs \u00e0 base de cobalt et fer pour la synth\u00e8se Fischer-Tropsch pour Tout-\u00e0-Liquides (XTL),\u201d invited lecture, Ecole Centrale de Lille, Villeneuve d\u2019Ascq, France, July 17, 2015.<\/p>\n

144. Gnanamani, M.K.; Jacobs, G.; Hamdeh, H.H.; Liu, F.; Hopps, S.; Thomas, G.A.; Davis, B.H., \u201cDecomposition study of cobalt-iron bimetallic oxalates,\u201d 24th North American Meeting of the Catalysis Society, Pittsburgh, Pennsylvania, June 14-19, 2015.<\/p>\n

143. de Souza, P.; Rabelo-Neto, R.C.; Borges, L.E.P.; Jacobs, G.; Davis, B.H.; Sooknoi, T.; Resasco, D.E.; Noronha, F.B., \u201cHydrodeoxygenation of phenol over Pd on oxophylic supports,\u201d 24th North American Meeting of the Catalysis Society, Pittsburgh, Pennsylvania, June 14-19, 2015.<\/p>\n

142. Pendyala, V.R.R.; Graham, U.M.; Jacobs, G.; Hamdeh, H.H.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 Morphology, phase transformation and carbon-layer growth as a function of potassium promoter loading for a precipitated iron catalyst,\u201d 24th North American Meeting of the Catalysis Society, Pittsburgh, Pennsylvania, June 14-19, 2015.<\/p>\n

141. Jacobs, G.; Pendyala, V.R.R.; Gnanamani, M.K.; Hu, Y.; MacLennan, A.; Davis, B.H., \u201cInfluence of Cu promoter oxidation state on FTS product selectivity,\u201d 24th North American Meeting of the Catalysis Society, Pittsburgh, Pennsylvania, June 14-19, 2015.<\/p>\n

140. Todic, B.; Ma, W.; Jacobs, G.; Davis, B.H.; Bukur, D.B., \u201cImportance of methane formation in determining overall selectivity of Fischer-Tropsch synthesis over cobalt-based catalyst,\u201d 249th ACS National Meeting & Exposition, Mar. 22-26, 2015, Denver, CO.<\/p>\n

139. Jacobs, G.; Martinelli, M.; Shafer, W.D.; Graham, U.M.; Davis, B.H., \u201cImproving Pt\/zirconia WGS catalysts through doping by Y and electronic promotion with Na,\u201d 249th ACS National Meeting & Exposition, Mar. 22-26, 2015, Denver, CO.<\/p>\n

138. Shafer, W.D.; Jacobs, G.; Alvez, G.; Snell, R.; Hao, X.; Davis, B.H., \u201cEffects of intracrystalline diffusion and aromatization of hexane at various pressures using isotopic labeling,\u201d 248th ACS National Meeting & Exposition, Aug. 10-14, 2014, San Francisco, CA.<\/p>\n

137. Martinelli, M.; Jacobs, G.; Lietti, L.; Visconti, C.G.; Hopps, S.; Davis, B.H., \u201cCharacterization of nano-scale Pt promoted yttria-stabilized zirconia catalysts for hydrogen production applications,\u201d 248th ACS National Meeting & Exposition, Aug. 10-14, 2014, San Francisco, CA.<\/p>\n

136. Graham, U.M.; Jacobs, G.; Gnanamani, M.K.; Lipka, S.M.; Shafer, W.D.; Swartz, C.; Davis, B.H., \u201cFischer-Tropsch synthesis: High oxygenate selectivity of hydrothermal carbon supported cobalt catalysts,\u201d 248th ACS National Meeting & Exposition, Aug. 10-14, 2014, San Francisco, CA.<\/p>\n

135. Ma, W.; Jacobs, G.; Sparks, D.E.; Davis, B.H., \u201cEffects of halogenated acids and hydrogen cyanide in syngas on a precipitated iron Fischer\u2013Tropsch synthesis catalyst,\u201d 248th ACS National Meeting & Exposition, Aug. 10-14, 2014, San Francisco, CA.<\/p>\n

134. Ribeiro, M.C.; Gnanamani, M.K.; Azevedo, I.; Rabelo-Neto, R.C.; Pendyala, V.R.R.; Jacobs, G.: Davis, B.H.; Noronha, F.B., \u201cFischer Tropsch synthesis: Enhanced selectivity to n-alcohols and olefins over transition metal oxide doped ceria supported cobalt catalysts,\u201d 248th ACS National Meeting & Exposition, Aug. 10-14, 2014, San Francisco, CA.<\/p>\n

133. Gnanamani, M.K.; Hamdeh, H.H.; Jacobs, G.; Shafer, W.D.; Sparks, D.E.; Keogh, R.A.; Davis, B.H., \u201cFischer-Tropsch synthesis: Activity and selectivity of \u03c7-Fe5C2 and \u03f4-Fe3C carbides,\u201d 248th ACS National Meeting & Exposition, Aug. 10-14, 2014, San Francisco, CA.<\/p>\n

132. Jermwongratanachai, T. (PhD student); Kitiyanan, B. (advisor); Jacobs, G. (advisor); Davis,\u00a0 B.H. (advisor), \u201cA Comparison between Pt and Ag as Metal Promoters for Co\/Al2O3 Fischer-Tropsch Synthesis Catalyst\u201d, Royal Golden Jubilee (RGJ) XIV Congress, \u201cTowards Translational Research:\u00a0 Publications to Products, P2P,\u201d Jomtien Palm Beach Hotel & Resort, Pattaya, Chonburi, Thailand, April 5-7, 2013.\u00a0 (Dr. Jermwongratanachai received the Outstanding Oral Presentation award for this work.)<\/p>\n

131. Jacobs, G., Pendyala, V.R.R., Ma, W., Gnanamani, M.K., Davis, B.H., \u201cFischer-Tropsch synthesis: matching the catalyst to the feedstock and the reactor,\u201d 2013 AIChE Annual Meeting, Nov. 3-8, 2013, San Francisco, CA.<\/p>\n

130. Shafer, W.D., Jacobs, G., Davis, B.H., \u201cFischer-Tropsch synthesis: investigation of the partitioning of dissociated H2 and D2 on activated cobalt catalysts,\u201d 23rd North American Meeting of the Catalysis Society, Louisville, Kentucky, June 2-7, 2013.<\/p>\n

129. Jermwongratanachai, T., Jacobs, G., Ma, W., Shafer, W.D., Gnanamani, M.K., Gao, P., Kitiyanan, B., Davis, B.H., Cronauer, D.C., Kropf, A.J., Marshall, C.L., \u201cFischer-Tropsch synthesis: examination of the coordination environment and simulated regeneration of Pt promoted Co\/Al2O3 using oxidation-reduction cycles,\u201d 23rd North American Meeting of the Catalysis Society, Louisville, Kentucky, June 2-7, 2013.<\/p>\n

128. Pendyala, V.R.R., Gnanamani, M.K., Jacobs, G., Shafer, W.D., Davis, B.H., \u201cFischer-Tropsch synthesis: hydrogenation of carbon oxides to hydrocarbons over ceria supported cobalt catalysts,\u201d 23rd North American Meeting of the Catalysis Society, Louisville, Kentucky, June 2-7, 2013.<\/p>\n

127. Ma, W., Jacobs, G., Todic, B., Bukur, D.B., Davis, B.H., \u201cFischer-Tropsch synthesis: influence of process conditions on deactivation of Ru and Re promoted 25%Co\/Al2O3 catalysts,\u201d 23rd North American Meeting of the Catalysis Society, Louisville, Kentucky, June 2-7, 2013.<\/p>\n

126. Ribeiro, M.C., Azevedo, I., Gnanamani, M.K., Jacobs, G., Davis, B.H., Noronha, F.B., \u201cEvidence of a correlation between support reducibility and alcohol selectivity in Si doped Co\/CeO2 catalysts for Fischer-Tropsch synthesis,\u201d 23rd North American Meeting of the Catalysis Society, Louisville, Kentucky, June 2-7, 2013 (Venkat Ramana Rao Pendyala, speaker).<\/p>\n

125. Jacobs, G., Jermwongratanachai, T., Ma, W., Shafer, W.D., Gnanamani, M.K., Gao, P., Kitiyanan, B., Davis, B.H., Cronauer, D.C., Kropf, A.J., Marshall, C.L., \u201cCan promoters in Co\/Al2O3 Fischer-Tropsch synthesis catalysts be substituted by Ag?\u00a0 An EXAFS, reaction testing, and catalyst regeneration study,\u201d 23rd North American Meeting of the Catalysis Society, Louisville, Kentucky, June 2-7, 2013.<\/p>\n

124. Ma, W., Jacobs, G., Graham, U.M., Dadyburjor, D., Kugler, E., Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of K loading on the water-gas shift reaction during Fischer-Tropsch synthesis on Fe based catalysts,\u201d 245th ACS National Meeting and Exposition, April 7-11, 2013, New Orleans, Louisiana, USA.<\/p>\n

123. Pendyala, V.R.R., Gnanamani, M.K., Ma, W., Jacobs, G., Shafer, W.D., Davis, B.H., \u201cFischer-Tropsch Synthesis: Effect of ammonia impurities in syngas feed over cobalt\u00a0\u00a0 catalysts,\u201d 245th ACS National Meeting, April 7-11, 2013, New Orleans, Louisiana, USA.<\/p>\n

122. Gnanamani, M.K., Jacobs, G., Shafer, W.D., Pendyala, V.R.R., Davis, B.H., \u201cLow temperature water-gas shift reactions over alkali-promoted cobalt carbide catalysts,\u201d Preprints – American Chemical Society, Division of Energy & Fuels (2013), 58(1), 1310-1311.\u00a0 245th ACS National Meeting and Exposition, April 7-11, 2013, New Orleans, Louisiana, USA.<\/p>\n

121. Jermwongratanachai, T., Jacobs, G., Ma, W., Gao, P., Kitiyanan, B., Davis, B.H., Cronauer, D.C., Kropf, A.J., Marshall, C.L., \u201cFischer-Tropsch synthesis: Investigation of the impact of Pt and Ag promotor loading on the local atomic structure of Co\/alumina catalysts using an in-situ XAS,\u201d Preprints – American Chemical Society, Division of Energy & Fuels (2013), 58(1), 1037.\u00a0 245th ACS National Meeting and Exposition, April 7-11, 2013, New Orleans, Louisiana, USA.<\/p>\n

120. Mattos, L.V., Jacobs, G., Davis, B.H., Noronha, F.B. (keynote speaker), \u201cA review of kinetics, reaction mechanism and catalyst deactivation for syngas production from ethanol,\u201d 10th Natural Gas Conversion Symposium, March 2-7, 2013, Doha, Qatar.<\/p>\n

119. Todic, B., Ma, W., Jacobs, G., Davis, B.H., Bukur, D.B., \u201cCO-insertion mechanism based comprehensive kinetic model of Fischer-Tropsch synthesis over Re-promoted Co catalyst,\u201d 10th Natural Gas Conversion Symposium, March 2-7, 2013, Doha, Qatar.<\/p>\n

118. Ma, W., Jacobs, G., Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 Kinetic effect of water over 25%Co\/Al2O3 catalyst in a slurry reactor,\u201d 10th Natural Gas Conversion Symposium, Doha, Qatar, March 1-7, 2013.<\/p>\n

117. Jacobs, G., Ma, W., Davis, B.H., Todic, B., Bukur, D.B.B., \u201cFischer-Tropsch synthesis:\u00a0 linking cobalt catalyst performance parameters to catalyst structure: an EXAFS investigation,\u201d 10th Natural Gas Conversion Symposium, Doha, Qatar, March 1-7, 2013.<\/p>\n

116. Ma, W., Jacobs, G., Todic, B., Bukur, D.B., Davis, B.H., \u201cFischer-Tropsch synthesis: Effect of process conditions on performance of 0.48% Re-25%Co\/Al2O3 catalyst in a Slurry Reactor,\u201d AIChE Annual Meeting, Oct. 28 \u2013 Nov. 2, 2012, Pittsburg, PA.<\/p>\n

115. Grangeiro, A.P.; Rabelo Neto, R.C.; Colman, R.C.; Gnanamani, M.K.; Jacobs, G.; Davis, B.H.; Noronha, F.B., \u201cCO2 hydrogenation over Fe-based catalysts derived from Mg-Al-Fe hydrotalcite precursors,\u201d 15th ICC, July 1-6, 2012, Munich, Germany.<\/p>\n

114. Ma, W.; Jacobs, G.; Yen, C.H., Klettlinger, J., Davis, B.H., \u201cFischer-Tropsch synthesis: kinetics of the reaction using cobalt catalysts,\u201d 15th ICC, July 1-6, 2012, Munich, Germany.<\/p>\n

113. Jacobs, G.; Davis, B.H., Cronauer, D.C., Kropf, A.J., Marshall, C.L., \u201cApplication of TPR-XANES to the investigation of Pt containing ceria catalysts doped with cations,\u201d 15th ICC, July 1-6, 2012, Munich, Germany.<\/p>\n

112. Ribeiro, M.C.; Jacobs, G.; Davis, B.H., Noronha, F.B., \u201cCatalyst development for steam reforming of ethanol: the enhancement of H2,\u201d 15th ICC, July 1-6, 2012, Munich, Germany.<\/p>\n

111. Ma, W., Jacobs, G., Sparks, D.E., Kang, J., Gnanamani, M.K., Pendyala, V.R.R., Shafer, W.D., Keogh, R.A., Graham, U.M., Davis, B.H., \u201cEffect of alkali compounds in syngas on Fischer-Tropsch synthesis behavior of a precipitated iron catalyst in a slurry reactor,\u201d\u00a0 Synfuels 2012, International Symposium on Alternative Clean Synthetic Fuels, June 29 & 30, 2012, Munich, Germany.<\/p>\n

110. Sparks, D.E., Jacobs, G., Gnanamani, M.K., Pendyala, V.R.R., Ma, W., Kang, J., Shafer, W.D., Keogh, R.A., Graham, U.M., Davis, B.H., \u201cPoisoning of cobalt catalyst used for Fischer-Tropsch synthesis,\u201d Synfuels 2012, International Symposium on Alternative Clean Synthetic Fuels, June 29 & 30, 2012, Munich, Germany.<\/p>\n

109. Todic, B., Bhatelia, T., Ma, W., Jacobs, G., Davis, B.H., Bukur, D.B., \u201cComprehensive Kinetic Model of Fischer-Tropsch Synthesis in a Slurry Reactor,\u201d Synfuels 2012, International Symposium on Alternative Clean Synthetic Fuels, June 29 & 30, 2012, Munich, Germany.<\/p>\n

108. Gnanamani, M.K.; Jacobs, G.; Shafer, W.D.; Sparks, D.E.; Davis, B.H., \u201cHydroisomerization of n-hexadecane over anion modified Pt\/HfO2 catalysts,\u201d AIChE Spring Meeting and 8th Global Congress on Process Safety, Apr. 1-5, 2012, Houston, TX, USA.<\/p>\n

107. Jacobs, G.; Ma, W.; Davis, B.H.; Todic, B.; Bhatelia, T.; Bukur, D.B., \u201cThe application of synchrotron methods in characterizing iron and cobalt Fischer-Tropsch synthesis catalysts,\u201d Keynote Lecture, Syngas Convention 2012, Apr. 1-4, 2012, Cape Town, South Africa.<\/p>\n

106. Sparks, D.E.; Jacobs, G.; Gnanamani, M.K.; Pendyala, V.R.R.; Ma, W.; Kang, J.; Shafer, W.D.; Keogh, R.A.; Graham, U.M.; Gao, P.; Davis, B.H., \u201cPoisoning of cobalt catalyst used for Fischer-Tropsch synthesis,\u201d Division of Petroleum Chemistry, 243rd ACS National Meeting & Exposition, Mar. 25-29, 2012, San Diego, CA, USA.<\/p>\n

105. Mattos, L.V.; Jacobs, G.; Davis, B.H.; Noronha, F.B., \u201cHydrogen production through steam reforming of ethanol,\u201d Division of Fuel Chemistry, Abstracts of the 243rd ACS National Meeting & Exposition, Mar. 25-29, 2012, San Diego, CA, USA.<\/p>\n

104. Todic, B.; Ma, W.; Jacobs, G.; Davis, B.H.; Bukur, D.B., \u201cKinetic modeling of GTL product distribution over a promoted cobalt catalyst,\u201d ARC\u201914, QNRF Annual Research Conference, Doha, Qatar, Oct. 19, 2012.<\/p>\n

103. Bhatelia, T.; Todic, B.; Bukur, D.B.B.; Ma, W.; Davis, B.H., Jacobs, G., \u201cKinetic models for Fischer-Tropsch synthesis over a Ru-promoted Co\/Al2O3 catalyst in a slurry reactor,\u201d ARC\u201914, QNRF Annual Research Conference, Doha, Qatar, Nov. 20, 2011.<\/p>\n

102. Ma, W.; Jacobs, G.; Bhatelia, T.; Bukur, D.B.; Davis B.H., \u201cFischer-Tropsch synthesis: Co turnover frequency rates over Co\/Al2O3 catalysts with different reduction promoters,\u201d ARC\u201914, QNRF Annual Research Conference, Doha, Qatar, Nov. 20, 2011.<\/p>\n

101. Ibrik, K.; Bhatelia, T.; Bukur, D.; Ma, W.; Davis, B.H.;Jacobs, G., \u201cKinetics of the Fischer-Tropsch reaction over alumina supported cobalt catalyst in a slurry reactor,\u201d ARC\u201914, QNRF Annual Research Conference, Doha, Qatar, Nov. 20, 2011.<\/p>\n

100. Ribeiro, M.C.; Rabelo-Neto, R.C.; Jacobs, G.; Davis, B.H., Noronha, F.B., \u201cReforma a vapor de etanol: maior atividade e selectividade para H2 em catalisadores de CeO2.SiO2 provocada pela presence de Mn,\u201d Campos do Jordao, Sao Paulo, 160 CBCat Congresso Brasileiro de Catalise, 2 A 6 de Outubro de 2011.\u00a0 Translated to English \u201cSteam reforming of ethanol: increased activity and selectivity for H2 in CeO2:SiO2 catalysts promoted with Mn,\u201d Campos do Jordao, Sao Paulo, Brazil, 16th CBCat Brazilian Congress of Catalysis, Oct. 2-6, 2011.<\/p>\n

99.\u00a0\u00a0 Kang, J.; Ma, W.; Keogh, R.A.; Jacobs, G.; Davis, B.H., \u201cStudies of hydrocracking and hydroisomerization of cobalt catalyst derived Fischer-Tropsch wax over Pt\/SiO2-Al2O3 catalyst,\u201d 242nd ACS National Meeting & Exposition, Aug. 28-Sep. 1, 2011, Denver, CO, USA.\u00a0 Preprints – American Chemical Society, Division of Petroleum Chemistry 56(2) (2011) 71-72.<\/p>\n

98.\u00a0\u00a0 Shi, C.; Ji, Y.; Graham, U.M.; Jacobs, G.; Toops, T.J.; Crocker, M., \u201cNOX storage and reduction properties of ceria-promoted lean NOX trap catalysts,\u201d 242nd ACS National Meeting & Exposition, Aug. 28-Sep. 1, 2011, Denver, CO, USA.\u00a0 Preprints of Symposia – American Chemical Society, Division of Fuel Chemistry 56(2) (2011) 3-4.<\/p>\n

97.\u00a0\u00a0 Rao, V.R.R.; Jacobs, G.; Davis, B.H., \u201cEffect of start-up solvents in a Fischer-Tropsch slurry reactor,\u201d 22nd North American Meeting of The Catalysis Society, Jun. 5-10, 2011, Detroit, MI, USA.<\/p>\n

96. \u00a0 Kang, J.; Ma, W.; Keogh, R.A.; Jacobs, G.; Davis, B.H., \u201cHydrocracking and hydroisomerization of cobalt-based Fischer-Tropsch wax over a Pt\/SiO2-Al2O3 catalyst,\u201d 22nd North American Meeting of The Catalysis Society, Jun. 5-10, 2011, Detroit, MI, USA.<\/p>\n

95.\u00a0\u00a0 Gnanamani, M.K.; Jacobs, G.; Shafer, W.D.; Davis, B.H., \u201cFischer-Tropsch synthesis: mechanism of oxygenate formation over CeO2 supported Pt-Co catalysts,\u201d 22nd North American Meeting of The Catalysis Society, Jun. 5-10, 2011, Detroit, MI, USA.<\/p>\n

94.\u00a0\u00a0 Jacobs, G.; Linganiso, L.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J., Marshall, C.L., \u201cImproved surface\/bulk oxygen mobility suggested by TPR-XANES over Ca-doped Pt\/ceria catalysts and implications for diffusion of O-bound species in LTS,\u201d 22nd North American Meeting of The Catalysis Society, Jun. 5-10, 2011, Detroit, MI, USA.<\/p>\n

93.\u00a0\u00a0 Bhatelia, T.; Ma, W.; Davis, B.H.; Jacobs, G.; Bukur, D.B., \u201cKinetics of the Fischer-Tropsch reaction over a Ru-promoted Co\/Al2O3 catalyst, 14th International Conference on Process Integration, Modeling and Optimization for Energy Saving and Pollution Reduction, May 8-11, 2011, Florence, Italy.<\/p>\n

92. \u00a0 Pendyala, V.R.R.; Jacobs, G.; Davis, B.H., \u201cFischer-Tropsch synthesis: effect of start-up solvents in a slurry reactor,\u201d Mar. 13-17, 2011 AIChE Spring Topical Meeting, Chicago, IL, USA.<\/p>\n

91.\u00a0\u00a0 Ma, W.; Jacobs, G.; Bhatelia, T.; Bukur, D.B.; Davis, B.H., \u201cFischer-Tropsch synthesis: influence of CO conversion on selectivities, H2\/CO usage ratios, and catalyst stability over 0.27% Ru-25%Co\/Al2O3 using a slurry-phase reactor,\u201d Mar. 13-17, 2011 AIChE Spring Topical Meeting, Chicago, IL, USA.<\/p>\n

90.\u00a0\u00a0 Gnanamani, M.K.; Ribeiro, M.C.; Ma, W.; Jacobs, G.; Graham, U.M.; Shafer, W.D.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 metal-support interfacial contact governs oxygenates selectivity over CeO2 supported Pt-Co catalysts,\u201d Mar. 13-17, 2011 AIChE Spring Topical Meeting, Chicago, IL, USA.<\/p>\n

89.\u00a0\u00a0 Bhatelia, T.; Ma, W.; Jacobs, G.; Davis, B.H.; Bukur, D.B., “Development of a kinetic model for Fischer-Tropsch synthesis over a Ru promoted Co\/Al2O3 catalyst in a slurry reactor,” Mar. 13-17, 2011 AIChE Spring Topical Meeting, Chicago, IL, USA.<\/p>\n

88.\u00a0\u00a0 Ma, W.; Jacobs, G.; Bhatelia, T.; Bukur, D.B.; Davis, B.H., “Fischer-Tropsch synthesis: influence of CO conversion on selectivities, H2\/CO usage ratios, and catalyst stability over 0.27% Ru-25%Co\/Al2O3 using a slurry-phase reactor,” Mar. 13-17, 2011 AIChE Spring Topical Meeting, Chicago, IL, USA.<\/p>\n

87.\u00a0\u00a0 de Lima, S.M.; da Silva, A.M.; da Costa, L.O.O.; Graham, U.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; Noronha, F.B., \u201cProduction of synthesis gas from ethanol.\u00a0 Study of catalyst deactivation and reaction mechanism,\u201d 9th Natural Gas Conversion Symposium, 2010, Lyon, France.\u00a0 Book of Abstracts of 9th Novel Gas Conversion Symposium, 2010. v. cdrom. P. P35-1 p P35-2.<\/p>\n

86.\u00a0\u00a0 Ribeiro, M.C.; Jacobs, G.; Azzam, K.G.; Linganiso, L.; Davis, B.H.; \u201cLow temperature water gas shift catalysts:\u00a0 a comparison between novel Pt\/MnOx and conventional Pt\/CeOx catalysts,\u201d 2010 Tri-State Catalysis Society Symposium, Apr. 26, 2010, Covington, KY, USA.<\/p>\n

85.\u00a0\u00a0 Azzam, K.G.; Jacobs, G.; Shafer, W.D.; Davis, B.H.; \u201cAromatization of hexane over Pt\/KL catalyst: Role of intracrystalline diffusion on catalyst performance using isotope labelling,\u201d 2010 Tri-State Catalysis Society Symposium, Apr. 26, 2010, Covington, KY, USA.<\/p>\n

84.\u00a0\u00a0 Ribeiro, M.C.; Jacobs, G.; Pendyala, V.R.R.; Davis, B.H.; Kropf, A.J.; Marshall, C.L.; Cronauer, D.C.; \u201cCharacterizing the influence of Mn and K promoters on the carburization rates and performance parameters of Fe-based FT catalysts by TPR-EXAFS\/XANES and catalytic testing,\u201d 2010 AIChE Spring Topical meeting, Mar. 21-25, 2010, San Antonio, TX, USA.<\/p>\n

83.\u00a0 Ma, W.; Mohandas, J.C.; Keogh, R.A.; Jacobs, G.; Davis, B.H.; \u201cHydrocracking of cobalt-based Fischer-Tropsch wax over Pt\/ZSM-5 and Pt\/SiO2-Al2O3 catalysts,\u201d 2010 AIChE Spring Topical meeting, Mar. 21-25, 2010, San Antonio, TX, USA.<\/p>\n

82.\u00a0 Pendyala, V.R.; Jacobs, G.; Mohandas, J.C.; Ma, W.; Gnanamani, M.K.; Davis, B.H.; \u201cStudy of the effect of water on Fischer-Tropsch synthesis over iron-based catalysts,\u201d 2010 AIChE Spring Topical meeting, Mar. 21-25, 2010, San Antonio, TX, USA.<\/p>\n

81.\u00a0\u00a0 Ma, W.; Jacobs, G.; Keogh, R.A.; Davis, B.H.; \u201cKinetics of Fischer-Tropsch synthesis using 25%Co\/Al2O3 catalysts calcined in air or nitric oxide,\u201d 2010 AIChE Spring Topical meeting, Mar. 21-25, 2010, San Antonio, TX, USA.<\/p>\n

80.\u00a0\u00a0 Azzam, K.; Jacobs, G.; Davis, B.H.; \u201cEffect of cobalt particle size on the catalyst intrinsic activity for Fischer-Tropsch synthesis,\u201d 2010 AIChE Spring Topical meeting, Mar. 21-25, 2010, San Antonio, TX, USA.<\/p>\n

79.\u00a0\u00a0 Ribeiro, M.C.; Jacobs, G.; Davis, B.H.; Cronauer, D.C.; Kropf, A.J.; Marshall, C.L., \u201cFischer-Tropsch Synthesis:\u00a0 EXAFS\/XANES characterization of iron-based catalysts promoted by Group I alkali metals,\u201d 2009 AIChE Annual Meeting, Nov. 8-13, 2009, Nashville, TN, USA.<\/p>\n

78.\u00a0\u00a0 Jacobs, G.; Ma, W; Ribeiro, M.; Shafer, W.; Ji, Y.; Davis, B.H.; \u201cFeasibility study – the benefits and drawbacks of group 11 promoted Co\/alumina catalysts for Fischer-Tropsch synthesis,\u201d 2009 AIChE Annual Meeting, Nov. 8-13, 2009, Nashville, TN, USA.<\/p>\n

77.\u00a0\u00a0 Davis, B.H.; Bao, S.-Q.; Keogh, R.A.; Jacobs, G., \u201cFischer-Tropsch synthesis: a comparison of iron and cobalt catalysts,\u201d 2009 International Pittsburgh Coal Conference, Sep. 20-23, 2009, Pittsburgh, PA, USA.<\/p>\n

76.\u00a0\u00a0 de Lima, S.M.; da Silva, A.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; and Noronha, F.B., \u201cHydrogen production from steam reforming of ethanol over oxide catalysts,\u201d Sociedad Brasileira de Catalise, 15th Congress Brasileiro de Catalise and 5th Congresso de Catalise do Mercosul, Armacao dos Buzios, Sep. 13-17, 2009, Rio de Janeiro, Brazil.<\/p>\n

75.\u00a0\u00a0 de Lima, S.M.; da Silva, A.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; and Noronha, F.B., \u201cEffect of Sn addition on the performance of ceria supported Pt catalysts on steam reforming of ethanol,\u201d Sociedad Brasileira de Catalise, 15th Congress Brasileiro de Catalise and 5th Congresso de Catalise do Mercosul, Armacao dos Buzios, Sep. 13-17, 2009, Rio de Janeiro, Brazil.<\/p>\n

74.\u00a0\u00a0 de Lima, S.M.; da Silva, A.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; and Noronha, F.B., \u201cSteam reforming of ethanol over high and low surface area ceria supported Pt catalysts,\u201d Sociedad Brasileira de Catalise, 15th Congress Brasileiro de Catalise and 5th Congresso de Catalise do Mercosul, Armacao dos Buzios, Sep. 13 – 17, 2009, Rio de Janeiro, Brazil.<\/p>\n

73.\u00a0\u00a0 Noronha, F.B.; de Lima, S.M.; da Silva, A.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; \u201cHydrogen production from ethanol over Ni Perovskite-type oxide,\u201d Europacat IX, Aug. 30 – Sep. 4, 2009, Salamanca, Spain.<\/p>\n

72.\u00a0\u00a0 Jacobs, G.; Davis, B.H., \u201cCatalysis for fuels research using in-situ spectroscopic techniques,\u201d Computational Chemistry Meeting, Lexington, KY, Aug. 25, 2009.<\/p>\n

71.\u00a0\u00a0 Gnanamani, M.K.; Jacobs, G.; Ma, W.; Pendyala, V.R.R.; Davis, B.H.\u00a0 \u201cStudies on KIT-6 supported cobalt catalyst for Fischer-Tropsch synthesis.\u201d Abstracts of Papers, 238th ACS National Meeting, Aug. 16-20, 2009, Washington, D.C., USA.<\/p>\n

70.\u00a0\u00a0 Gnanamani, M.K.; Ma, W.; Jacobs, G.; and Davis, B.H., \u201cComparison of Pt and Cu promotional effects in CO2 Hydrogenation over Co\/Al2O3,\u201d 21st North American Meeting of The Catalysis Society, Jun. 7-12, 2009, San Francisco, CA, USA.<\/p>\n

69.\u00a0\u00a0 de Lima, S.M.; da Costa, L.O.O.; Graham, U.M.; Jacobs, G.; Davis, B.H.; Mattos, L.V.; and Noronha, F.B., \u201cThe effect of the metal nature on deactivation during steam reforming of ethanol for hydrogen production over Pt\/CeO2 and Co\/CeO2 catalysts,” 21st North American Meeting of The Catalysis Society, Jun. 7-12, 2009, San Francisco, CA, USA.<\/p>\n

68.\u00a0\u00a0 Jacobs, G.; Ma, W.; Ribeiro, M.; Ji, Y.; and Davis, B.H., \u201cGroup 11 promotion of Co\/Al2O3 catalysts for Fischer-Tropsch synthesis, 21st North American Meeting of The Catalysis Society, Jun. 7-12, 2009, San Francisco, CA, USA.<\/p>\n

67.\u00a0\u00a0 Jacobs, G. and Davis, B.H., \u201cKinetics of Fischer Tropsch synthesis: reaction mechanism for cobalt and iron Catalysts,\u201d ACS Spring Regional Meeting, May 20, 2009, Cleveland, OH, USA.<\/p>\n

66.\u00a0\u00a0 Ma, W.; Jacobs, G.; Sparks, D.E.; Gnanamani, M.K.; Pendyala, V.R.R.; and Davis, B.H., \u201cFischer-Tropsch synthesis: support and cobalt cluster size effects on kinetics and hydrocarbon selectivity over Co\/Al2O3 and Co\/SiO2 catalysts\u201d, Tri-State Catalysis Society Symposium, Apr. 20, 2009, Lexington, KY, USA.<\/p>\n

65.\u00a0\u00a0 Jacobs, G.; Ma, W.; Ribeiro, M.; Ji, Y.; and Davis, B.H., \u201cGroup 11 promotion of Co\/alumina Fischer-Tropsch synthesis catalysts\u201d, Tri-State Catalysis Society Symposium, Apr. 20, 2009, Lexington, KY, USA.<\/p>\n

64.\u00a0\u00a0 Jacobs, G.; Ma, W.; Ribeiro, M.; Ji, Y.; Davis, B.H. Davis, \u201cGroup 11 promotion of cobalt Fischer-Tropsch synthesis catalysts,\u201d Division of Catalysis Science and Technology, 237th ACS National Meeting, Mar. 22-26, 2009, Salt Lake City, UT, USA.<\/p>\n

63.\u00a0\u00a0 Ma, W.; Jacobs, G.; Sparks, D.E.; Gnanamani, M.K.; Pendyala, V.R.R.; Davis, B.H.; \u201cComparison of the kinetics of the Fischer-Tropsch synthesis reaction between alumina and silica supported cobalt catalysts as a function of metal loading,\u201d Hydrocarbon Resources Gordon Conference, Jan. 11-16, 2009, Ventura Beach, CA, USA.<\/p>\n

62.\u00a0\u00a0 Ma, W.; Jacobs, G.; Gnanamani, M.K.; Davis, B.H.; \u201cComparison of the kinetics of the Fischer-Tropsch synthesis reaction between alumina and silica supported cobalt catalysts as a function of metal loading,\u201d AIChE Fall National Meeting, Nov. 16-22, 2008, Philadelphia, PA, USA.<\/p>\n

61.\u00a0\u00a0 Jacobs, G.; Davis, B.H.; \u201cSensitivity of Fischer-Tropsch synthesis and water-gas shift catalysts to contaminants from gasified biomass and coal\/biomass mixtures,\u201d DOE-NETL project kickoff meeting, Oct. 16, 2008, Pittsburgh, PA, USA.<\/p>\n

60.\u00a0\u00a0 Jacobs, G.; Davis, B.H.; Pigos, J.M.; Brooks, C.J., \u201cLow temperature water-gas shift: weakening of formate C-H bond with alkali doping of Pt\/ZrO2 catalysts accelerates formate decomposition rate,\u201d Abstracts of Papers, 236th ACS National Meeting, Aug. 17-21, 2008; Stand-in, Sunday, Aug. 17, Philadelphia, PA, USA.<\/p>\n

59.\u00a0\u00a0 Jacobs, G.; Ma, W.; Ji, Y.; Khalid, S.; Davis, B.H., \u201cCharacterization of Co\/silica catalysts prepared by a novel NO calcination method,\u201d Abstracts of Papers, 236th ACS National Meeting, Aug. 17-21, 2008, Philadelphia, PA, USA; Preprints – American Chemical Society, Division of Petroleum Chemistry 53(2) (2008) 79-83.<\/p>\n

58.\u00a0\u00a0 Ma, W.; Jacobs, G.; Gnanamani, M.K.; Graham, U.M.; Davis, B.H., \u201cEffect of novel metal nitrate calcination on the catalytic behavior of silica supported cobalt catalyst during Fischer-Tropsch synthesis, and impact on slurry phase kinetics,\u201d Abstracts of Papers, 236th ACS National Meeting, Aug. 17-21, 2008, Philadelphia, PA, USA; Preprints – American Chemical Society, Division of Petroleum Chemistry 53(2) (2008) 61-63.<\/p>\n

57.\u00a0\u00a0 Jacobs, G.; Evin, H.N.; Ruiz-Martinez, J.; Graham, U.M.; Thomas, G.A.; and Davis, B.H., “Alkali doping of Pt\/ceria weakens C-H bonds of intermediates during low temperature water-gas shift and methanol steam reforming,” 14th ICC, Jul. 13-18, 2008, Seoul, Korea.<\/p>\n

56.\u00a0\u00a0 Ruiz-Martinez, J.; Jacobs, G.; Sepulveda-Escribano, A.; Davis, B.H.; and Rodriguez-Reinoso, F., “Steam reforming of alcohols over Pt and PtSn catalysts supported on TiO2” 14th ICC, Jul. 13-18, 2008, Seoul, Korea.<\/p>\n

55.\u00a0\u00a0 de Lima, S.M.; Jacobs, G.; Davis, B.H.; Souza, K.R.; de Lima, A.F.F.; Appel, L.G.; Mattos, L.V.; Noronha, F.B., “Hydrogen production from ethanol for PEM fuel cells. An integrated fuel processor comprising ethanol steam reforming and preferential oxidation of CO,” Catalysis for Hydrogen Energy Production and Utilization, Jul. 20-22, 2008, Gyeongju, Korea.<\/p>\n

54.\u00a0\u00a0 de Lima, S.; Jacobs, G.; Davis, B.H.; Mattos, L.; and Noronha, F.B., “Catalyst design for steam reforming of ethanol for hydrogen production,” 17th World Hydrogen Energy Conference, Jun. 15-19, 2008, Brisbane, Queensland, Australia.<\/p>\n

53.\u00a0\u00a0 Ma, W.; Jacobs, G.; Sparks, D.E.; Spicer, R.L.; Graham, U.M.; Davis, B.H., \u201cComparison of the kinetics of the Fischer-Tropsch synthesis reaction between structured alumina supported cobalt catalysts with different pore size,\u201d Abstracts of Papers, 235th ACS (joint meeting with AIChE) National Meeting, Apr. 6-10, 2008, New Orleans, LA, USA; Preprints of Symposia – American Chemical Society, Division of Fuel Chemistry 53(1) (2008)\u00a0 99-102.<\/p>\n

52.\u00a0\u00a0 Jacobs, G.; Sarkar, A.; Ji, Y.; Davis, B.H.; Cronauer, D.; Kropf, A.J.; Marshall, C.L., \u201cApplication of a novel TPR EXAFS\/XANES method using a multi-sample holder to characterize promoted iron and cobalt Fischer-Tropsch synthesis catalysts,\u201d Abstracts of Papers, 235th ACS (joint meeting with AIChE) National Meeting, New Orleans, LA, United States, Apr. 6-10, 2008; Preprints of Symposia – American Chemical Society, Division of Fuel Chemistry 53(1) (2008) 158-159.<\/p>\n

51.\u00a0\u00a0 Khatri, R.A.; Graham, U.M.; Evin, H.N.; Jacobs, G.; Dozier, A.; Davis, B.H., \u201c3D investigation of nano-crystalline ridges on ceria support surface of Pt\/CeO2 catalysts for water-gas shift,\u201d\u00a0 Abstracts of Papers, 235th ACS National Meeting, Apr. 6-10, 2008, New Orleans, LA, USA; Preprints of Symposia – American Chemical Society, Division of Fuel Chemistry 53(1) (2008) 162-163.<\/p>\n

50.\u00a0\u00a0 Jacobs, G.; Sarkar, A.; Ji, Y.; Davis, B.H.; Cronauer, D.; Kropf, A.J.; and Marshall, C.L.; \u201cApplications of a novel TPR-EXAFS\/XANES method using a multi-sample holder to characterize promoted iron and cobalt Fischer-Tropsch synthesis catalysts,\u201d Tri-State Catalysis Society Symposium, Nov. 19, 2007, Lexington, KY, USA.<\/p>\n

49.\u00a0\u00a0 Jacobs, G.; Davis, B.H.; Pigos, J.M.; Brooks, C.J. (with Honda Research USA Inc.); \u201cLow temperature water-gas shift: weakening of formate C-H bond observed with alkali doping of Pt\/ZrO2 catalysts,\u201d 20th North American Meeting of The Catalysis Society, Jun. 17-22, 2007, Houston, TX, USA.<\/p>\n

48.\u00a0\u00a0 Sarkar, A.; Jacobs, G.; Luo, M.; Davis, B.H.; \u201cCharacterization of active species in Rb promoted iron catalyst during Fischer-Tropsch synthesis: an EXAFS, XANES, and M\u00f6ssbauer study,\u201d AIChE Spring National Meeting, Apr. 22-27, 2007, Houston, TX, USA.<\/p>\n

47.\u00a0\u00a0 Jacobs, G.; Ji, Y.; Davis, B.H.; Cronauer, D.; Marshall, C.L.; Kropf, A.J. (with Argonne National Laboratory); \u201cFischer-Tropsch synthesis:\u00a0 investigation of the metal-support interaction of cobalt-based catalysts by standard TPR and synchrotron-based TPR-XANES\/TPR-EXAFS techniques,\u201d AIChE Spring National Meeting, Apr. 21-27, 2007, Houston, TX, USA.<\/p>\n

46.\u00a0\u00a0 Jacobs, G.; Sarkar, A.; Ji, Y.; Patterson, P.M.; Das, T.K.; Luo, M.; Davis, B.H., \u201cFischer-Tropsch synthesis:\u00a0 characterization of interactions between reduction promoters and Co for Co\/Al2O3\u2013based GTL catalysts,\u201d AIChE Annual Meeting, Nov. 12-17, 2006, San Francisco, CA, USA.<\/p>\n

45.\u00a0\u00a0 Luo, M.; Bao, S.; Keogh, R.A.; Sarkar, A.; Jacobs, G.; Davis, B.H., \u201cFischer-Tropsch synthesis: a comparison of iron and cobalt catalysts,\u201dAIChE Annual Meeting, Nov. 12-17, 2006, San Francisco, CA, USA.<\/p>\n

44.\u00a0\u00a0 Pigos, J.M.; Brooks, C.J.; Jacobs, G.; Davis, B.H. (with Honda Research USA Inc.), \u201cEvidence of enhanced LTS water-gas shift rate with sodium promoted Pt-ZrO2-based catalyst discovered by combinatorial methods,\u201d AIChE Annual Meeting, Nov. 12-17, 2006, San Francisco, CA, USA.<\/p>\n

43.\u00a0\u00a0 Pigos, J.M.; Brooks, C.J.; Jacobs, G.; Davis, B.H. (with Honda Research USA Inc.), \u201cDRIFTS studies of platinum-based zirconia catalyst promoted with sodium discovered by combinatorial methods,\u201d 232nd ACS National Meeting, Sep. 10-14, 2006, San Francisco, CA, USA; Preprints – American Chemical Society, Division of Petroleum Chemistry 51(2) (2006) 510-511.<\/p>\n

42.\u00a0\u00a0 Jacobs, G.; Pigos, J.M., Brooks, C.J., Graham, U.M., Davis, B.H. (with Honda Research USA Inc.), “Recent developments in metal\/oxide low temperature water-gas shift catalysts for fuel processor applications”, Tri-State Catalysis Society Symposium, Sep. 13, 2006 Lexington, KY, USA.<\/p>\n

41.\u00a0\u00a0 Luo, M., Jacobs, G., and Davis, B.H., \u201cOverview of Fischer-Tropsch products and their upgrading to useful products\u201d, AIChE Spring National Meeting, Apr. 23-27, 2006, Orlando, FL, USA.<\/p>\n

40.\u00a0\u00a0 Jacobs, G.; Ricote, S.; Ji, Y.; Patterson, P.M., Davis, B.H., \u201cMetal promoted binary oxides of ceria and zirconia for low temperature water-gas shift\u201d, AIChE Spring National Meeting, Apr. 23-27, 2006, Orlando, FL, USA.<\/p>\n

39.\u00a0\u00a0 Jacobs, G.; Das, T.K.; Li, J; Patterson, P.M.; Luo, M.; Davis, B.H. “Fischer-Tropsch synthesis:\u00a0 impact of water on the activity and lifetime of cobalt catalysts,” 10th International Symposium on Catalyst Deactivation, Feb. 3-7, 2006, Berlin, Germany.<\/p>\n

38.\u00a0\u00a0 Jacobs, G.; Ricote, S.; Graham, U.M.; Patterson, P.M.; and Davis, B.H., \u201cLow temperature water gas shift:\u00a0 type and loading of metal impacts forward decomposition of pseudo-stabilized formate over metal\/ceria catalysts\u201d, International Conference on Gas-Fuel, Nov. 13-16, 2005, Brugge, Belgium.<\/p>\n

37.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; and Davis, B.H.; \u201cLow temperature water-gas shift:\u00a0 isotopic tracer and kinetic isotope effect investigations over Pt\/ceria,\u201d19th North American Meeting of The Catalysis Society, May 22-27, 2005, Philadelphia, PA, USA.<\/p>\n

36.\u00a0\u00a0 Patterson, P.M.; Sparks, D.E.; Jacobs, G.; Tackett, A.; Chaney, J.A.; and Crocker, M.; \u201cSupported bismuth oxide catalysts for NOX reduction using hydrocarbon reductants,\u201d 19th North American Meeting of The Catalysis Society, May 22-27, 2005, Philadelphia, PA, USA.<\/p>\n

35.\u00a0\u00a0 Davis, B.H.; Das, T.K.; Chaudhari, K.; Jacobs, G.; and Luo, M.; \u201cImpact of water on iron and cobalt catalysts during synthesis,\u201d AIChE Spring National Meeting, Apr. 10-14, 2005, Atlanta, GA, USA.<\/p>\n

34.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Crawford, A.C.; and Davis, B.H.; \u201cDeveloping structural property relationships of Pt\/Ceria catalysts for low temperature water gas shift,\u201d AIChE Spring National Meeting, Apr. 10-14, 2005, Atlanta, GA, USA.<\/p>\n

33.\u00a0\u00a0 Patterson, P.M.; Sparks, D.E.; Jacobs, G.; Dogimont, N.; Tackett, A.; Crocker, M. “Development of new catalysts for NOX emission control based on bismuth oxide,” 3rd Annual Kentucky Innovation & Enterprise Conference, Mar. 31, 2005, Louisville, KY, USA.<\/p>\n

32.\u00a0\u00a0 Crocker, M.; Graham. U.; Gonzalez, R.; Morris, E.; Jacobs, G.; Andrews, R. “Preparation and characterization of fibrous cerium oxide templated from activated carbon fibers,” 2005 Materials Research Society Spring Meeting, Mar. 28 – Apr. 1, 2005, San Francisco, CA, USA.<\/p>\n

31.\u00a0\u00a0 Jacobs, G.; Das, T.K., Li, J., Luo, M.; Patterson, P.M., and Davis, B.H.; \u201cFischer Tropsch synthesis: Influence of support on the impact of water for cobalt-based catalysts,\u201d Abstracts of Papers, 229th ACS, Div. Petr. Chem., National Meeting, Mar. 13-17, 2005, San Diego, CA, USA.<\/p>\n

30.\u00a0\u00a0 Jacobs, G.; Graham, U.M.; Patterson, P.M.; and Davis, B.H.; \u201cNano-scale catalysts offer unique opportunities for in-situ characterization \u2013 metal promoted partially reducible oxides for low temperature water gas shift,\u201d 2nd International Workshop on Nanomaterials, 1st place poster award, cash prize, Sep. 20-21, 2004, Lexington, KY, USA.<\/p>\n

29.\u00a0\u00a0 Crocker, M.; Sparks, D.E.; Dogimont, N.; Jacobs, G.; Chaney, J.A. “New catalysts for NOX emission control based on bismuth oxide,” 13th International Congress on Catalysis, Jul. 11-16, 2004, Paris, France.<\/p>\n

28.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Chaney, J.A.; Conner, W.A.; Das, T.K.; and Davis, B.H.; \u201cFischer-Tropsch synthesis:\u00a0 influence of cluster size and promoters on reoxidation phenomena associated with Co\/Al2O3 catalysts for GTL,\u201d13th International Congress on Catalysis, Jul. 11-16, 2004, Paris, France.<\/p>\n

27.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Crawford, A.C.; Chenu, E.; Sparks, D.E.; and Davis, B.H.; \u201cLow temperature water gas shift:\u00a0 comparative study of Pt promoted ceria and thoria,\u201d13th International Congress on Catalysis, Jul. 11-16, 2004, Paris, France.<\/p>\n

26.\u00a0\u00a0 Jacobs, G.; Crawford, A.C.;Calico-Williams, L.; Patterson, P.M.; and Davis, B.H.; \u201cPt\/thoria is an important analog to Pt\/ceria for low temperature water gas shift,\u201d AIChE Spring National Meeting, Apr. 25-29, 2004, New Orleans, LA, USA.<\/p>\n

25.\u00a0\u00a0 Das, T.K.; Conner, W.A.; Jacobs, G.; Zhan, X.; Li, J.; Dry, M.E.; and Davis, B.H.; \u201cKinetics of Fischer-Tropsch synthesis on Co\/Al2O3 catalyst,\u201d Abstracts of Papers, 227th ACS National Meeting, Mar. 28 – Apr. 1, 2004, Anaheim, CA, USA; Preprints – American Chemical Society, Division of Petroleum Chemistry 49(2) (2004) 161-164.<\/p>\n

24.\u00a0\u00a0 Jacobs, G; Patterson, P.M.; Chaney, J.A.; Conner, W.A.; Das, T.K.; Luo, M.; and Davis, B.H.; \u201cFischer-Tropsch synthesis: influence of reduction promoters on cluster size and stability of Co\/Al2O3 catalysts for GTL,\u201d Abstracts of Papers, 227th ACS National Meeting, Mar. 28 – Apr. 1, 2004, Anaheim, CA, USA; Preprints – American Chemical Society, Division of Petroleum Chemistry 49(2) (2004) 186-191.<\/p>\n

23.\u00a0\u00a0 Jacobs, G.; Graham, U.M.; Patterson, P.M.; and Davis, B.H.; \u201cNano-structured low temperature water gas shift catalysts for fuel cell processors,\u201d KY NanoMat Workshop, Sep. 25-26, 2003, Louisville, KY, USA.<\/p>\n

22.\u00a0\u00a0 Luo, M.; O\u2019Brien, R.J.; Bao, S.; Spicer, R.L.; Keogh, R.A.; Farmer, B.; Jacobs, G.; and Davis, B.H.; “Activation of high-alpha iron Fischer-Tropsch synthesis catalyst,” 18th North American Meeting of The Catalysis Society, Jun. 2-6, 2003, Cancun, Mexico.<\/p>\n

21.\u00a0\u00a0 Jacobs, G.; Calico-Williams, L.; Sparks, D.E.; and Davis, B.H.; “In-situ DRIFTS investigation of Pt\/CeO2 catalysts for low temperature WGS,” 18th North American Meeting of The Catalysis Society, Jun. 2-6, Cancun, Mexico, 2003.<\/p>\n

20.\u00a0\u00a0 Das, T.K.; Jacobs, G.; Conner, W.A.; and Davis, B.H.; “Fischer-Tropsch synthesis: effect of water and pore diameter of Al2O3 supports on cobalt catalysts,” 18th North American Meeting of The Catalysis Society, Jun. 2-6, 2003, Cancun, Mexico.<\/p>\n

19.\u00a0\u00a0 Jacobs, G.; Patterson, P.M.; Calico-Williams, L.; Chenu, E.; Graham, U.M.; and Davis, B.H.; “In-situ DRIFTS and XANES investigations of metal-promoted ceria catalysts for the low temperature WGS reaction and implications for catalyst design,” Tri-State Catalysis Society Spring Symposium, May 12-14, 2003, Lexington, KY, USA.<\/p>\n

18.\u00a0\u00a0 Conner, W.A.; Das, T.K.; Jacobs, G.; Li, J.; and Davis, B.H.; “Studies on Fischer-Tropsch synthesis over cobalt-based catalysts:\u00a0 kinetics and effect of water,” Tri-State Catalysis Society Spring Symposium, May 12-14, 2003, Lexington, KY, USA.<\/p>\n

17.\u00a0\u00a0 Chenu, E.; Jacobs, G.; and Davis, B.H.; “Low temperature WGS: comparative screening of metal promoters for metal-ceria systems and the role of the metal,” Tri-State Catalysis Society Spring Symposium, May 12-14, 2003, Lexington, KY, USA.<\/p>\n

16.\u00a0\u00a0 Davis, B.H.; Jacobs, G.; Das, T.K.; Conner, W.A.; and Li, J.; “Impact of water on the Fischer-Tropsch synthesis using cobalt catalysts,” AIChE 2003 Spring Meeting, Mar. 30 – Apr. 3, 2003, New Orleans, LA, USA.<\/p>\n

15.\u00a0\u00a0 Sanchez, L.; Jacobs, G.; and Davis, B.H.; \u201cEffect of calcination temperature on Co\/Al2O3 catalysts for Fischer-Tropsch synthesis,\u201d Tri-State Spring Symposium, May 20-22, 2002, Lexington, KY, USA.<\/p>\n

14.\u00a0\u00a0 Jacobs, G.; Graham, U.M.; and Davis, B.H.; “In-situ DRIFTS investigation of the water-gas shift reaction over a Pt\/CeO2 catalyst,” Tri-State Spring Symposium, May 20-22, 2002, Lexington, KY, USA.<\/p>\n

13.\u00a0\u00a0 Das, T.K.; Jacobs, G.; Patterson, P.M.; Conner, W.A.; Li, J.; and Davis, B.H.; “Fischer-Tropsch synthesis: characterization and catalytic properties of rhenium promoted cobalt alumina catalysts,” Tri-State Spring Symposium, May 20-22, 2002, Lexington, KY, USA.<\/p>\n

12.\u00a0\u00a0 Jacobs, G.; Zhang, Y.; Das, T.K.; Li, J.; Patterson, P.M.; and Davis, B.H.; “Deactivation of Ru promoted CoAl2O3 catalysts for Fischer-Tropsch synthesis,” 9th ISCD, Oct. 7-10, 2001, Lexington, KY, USA.<\/p>\n

11.\u00a0\u00a0 Jacobs, G.; Zhang, Y.; Das, T.K.; Li, J.; Racoillet, G.; and Davis, B.H.; “TPR study of support and promoter effects of supported Co FTS catalysts,” 17th North American Meeting of The Catalysis Society, Jun. 2-8, 2001, Toronto, Canada.<\/p>\n

10.\u00a0\u00a0 Das, T.K.; Zhang, Y.; Jacobs, G.; Conner, W.A.; and Davis, B.H.; “Synthesis, characterization and catalytic properties of rhenium promoted cobalt catalyst for the Fischer-Tropsch synthesis,” 17th North American Meeting of The Catalysis Society, Jun. 2-8, 2001, Toronto, Canada.<\/p>\n

9.\u00a0\u00a0\u00a0\u00a0 Zhang, Y.; Jacobs, G.; Sparks, D.E.; Dry, M.E.; and Davis, B.H.; “CO2 hydrogenation over Co\/SiO2 and Co-Pt\/Al2O3 catalysts,” Fischer-Tropsch on the eve of the XXI century,\u201d Nov. 5-8, 2000, Kruger National Park, South Africa.<\/p>\n

8.\u00a0\u00a0\u00a0\u00a0 Zhang, Y.; Das, T.K.; Conner, W.A.; Sirimanotham, N.; Jacobs, G.; and Davis, B.H.; “Characterization and slurry phase Fischer-Tropsch synthesis with Co-Re\/Al2O3 catalysts,” ACS, Catalysis Secretariat Division, Aug. 20-24, 2000, Washington, D.C., USA.<\/p>\n

7.\u00a0\u00a0\u00a0\u00a0 Jacobs, G.; Alvarez, W.E.; Borgna, A.; Noronha, F.; and Resasco, D.E.; “Probing particle size effects and electronic perturbations of small metal clusters in zeolite by shape resonance x-ray absorption and DRIFTS”, Book of Abstracts, 219th ACS National Meeting, Mar. 26-30, 2000, San Francisco, CA, USA.<\/p>\n

6.\u00a0\u00a0\u00a0\u00a0 Jacobs, G.; Ghadiali, F.A.; Pisanu, A.M.; Borgna, A.; Alvarez, W.E.; and Resasco, D.E.;\u00a0 “Characterization of Pt\/LTL catalysts prepared by VPI and IWI:\u00a0 deactivation study of the aromatization of n-hexane reaction”, Iberoamerican Congress on Catalysis, 2000, Portugal.<\/p>\n

5.\u00a0\u00a0\u00a0\u00a0 Ghadiali, F.A.; Jacobs, G.; Pisanu, A.M.; Borgna, A.; Alvarez, W.E.; and Resasco, D.E.; \u201cRegeneration and oxidation-reduction cycles of vapor phase and incipient wetness impregnation Pt\/KL catalysts,\u201d Proc. of the 12th International Congress on Catalysis, July 9-14, 2000, Granada, Spain.<\/p>\n

4.\u00a0\u00a0\u00a0\u00a0 Jacobs, G.; Ghadiali, F.A.; Pisanu, A.M.; Borgna, A.; Alvarez, W.E.; and Resasco, D.E.; “Characterization of the morphology of Pt clusters incorporated in a KL zeolite by vapor phase and incipient wetness impregnation, and influence of Pt particle morphology on n-hexane aromatization activity,” AIChE Annual Meeting, Nov., 1999, Dallas, TX, USA.<\/p>\n

3.\u00a0\u00a0\u00a0\u00a0 Jacobs, G.; Ghadiali, F.A.; Padro, C.L.; Borgna, A.; Alvarez, W.E.; and Resasco, D.E.; “Sulfur-tolerant aromatization catalysts”, Proc. of the 16th North American Catalysis Society Meeting, Jun., 1999, Boston, MA, USA.<\/p>\n

2.\u00a0\u00a0\u00a0\u00a0 Jacobs, G.; Padro, C.L.; Ghadiali, F.A.; Pisanu, A.M.; and Resasco, D.E.;\u00a0 “Comparative study of aromatization catalysts under clean and sulfur poisoned conditions”, AIChE Annual Meeting, Nov., 1998, Miami, FL, USA.<\/p>\n

1.\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0\u00a0 Jacobs, G.; Padro, C.L.; and Resasco, D.E.; “Deactivation of Pt\/KL catalysts \u2013 clean and sulfur containing feeds”, Environmentally Benign Chemical Processing Workshop, University of Virginia, Jun., 1998, Charlottesville, Virginia, USA.<\/p>\n","protected":false},"excerpt":{"rendered":"

  \u00a0Refereed Publications 269 \u00a0Presentations and Non-Refereed Publications 189 \u00a0U.S. Patents \u00a0 4 \u00a0Citations (as of 11\/2025 according to Google Scholar) 19221 \u00a0h-index \/ i10 index (as of 11\/2025 according to Google Scholar) 76 \/ 226 REFEREED PUBLICATIONS 269.\u00a0Megafu, D., Martinelli, M., Qian, D., Hocaoglu, Y., Jacobs, G., \u201cSteam reforming of methanol over Li-doped Pt\/m-ZrO2,\u201d\u00a0Applied … <\/p>\n

Continue reading “Publications”<\/span><\/a><\/p>\n","protected":false},"author":2,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_monsterinsights_skip_tracking":false,"_monsterinsights_sitenote_active":false,"_monsterinsights_sitenote_note":"","_monsterinsights_sitenote_category":0,"footnotes":""},"class_list":["post-14","page","type-page","status-publish","hentry"],"yoast_head":"\nPublications - Gary Jacobs<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/ceid.utsa.edu\/gjacobs\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Publications - Gary Jacobs\" \/>\n<meta property=\"og:description\" content=\"  \u00a0Refereed Publications 269 \u00a0Presentations and Non-Refereed Publications 189 \u00a0U.S. Patents \u00a0 4 \u00a0Citations (as of 11\/2025 according to Google Scholar) 19221 \u00a0h-index \/ i10 index (as of 11\/2025 according to Google Scholar) 76 \/ 226 REFEREED PUBLICATIONS 269.\u00a0Megafu, D., Martinelli, M., Qian, D., Hocaoglu, Y., Jacobs, G., \u201cSteam reforming of methanol over Li-doped Pt\/m-ZrO2,\u201d\u00a0Applied … Continue reading "Publications"\" \/>\n<meta property=\"og:url\" content=\"https:\/\/ceid.utsa.edu\/gjacobs\/publications\/\" \/>\n<meta property=\"og:site_name\" content=\"Gary Jacobs\" \/>\n<meta property=\"article:modified_time\" content=\"2025-11-05T03:35:24+00:00\" \/>\n<meta name=\"twitter:card\" content=\"summary_large_image\" \/>\n<meta name=\"twitter:label1\" content=\"Est. reading time\" \/>\n\t<meta name=\"twitter:data1\" content=\"79 minutes\" \/>\n<script type=\"application\/ld+json\" class=\"yoast-schema-graph\">{\"@context\":\"https:\\\/\\\/schema.org\",\"@graph\":[{\"@type\":\"WebPage\",\"@id\":\"https:\\\/\\\/ceid.utsa.edu\\\/gjacobs\\\/publications\\\/\",\"url\":\"https:\\\/\\\/ceid.utsa.edu\\\/gjacobs\\\/publications\\\/\",\"name\":\"Publications - 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