Transition metal hydride catalysis in the carbon monoxide/water systemKING, R. B; OHENE, F.Annals of the New York Academy of Sciences. 1983, Vol 415, pp 135-147, issn 0077-8923Article

XPS study on the low-temperature CO shift reaction catalyst. I: The unreduced copper-zinc systemGARBASSI, F; PETRINI, G.Journal of catalysis (Print). 1984, Vol 90, Num 1, pp 106-112, issn 0021-9517Article

The influence of pretreatment conditions on the activity and stability of sodium and potassium catalysts in carbon-steam reactionsWIGMANS, T; GOEBEL, J. C; MOULIN, J. A et al.Carbon (New York, NY). 1983, Vol 21, Num 3, pp 295-301, issn 0008-6223Article

Aqueous catalyst systems for the water-gas shift reaction. III: Continuous gas processing resultsELLIOTT, D. C; SEALOCK, L. J. JR; BUTNER, R. S et al.Industrial & engineering chemistry product research and development. 1986, Vol 25, Num 4, pp 541-549, issn 0196-4321Article

Nature and properties of a potassium-promoted NiMo/Al₂O₃ water gas shift catalystKANTSCHEWA, M; DELANNAY, F; JEZIOROWSKI, H et al.Journal of catalysis (Print). 1984, Vol 87, Num 2, pp 482-496, issn 0021-9517Article

Nondeactivating Nanosized Ionic Catalysts for Water-Gas Shift ReactionSHARMA, Sudhanshu; DESHPANDE, Parag A; HEGDE, M. S et al.Industrial & engineering chemistry research. 2009, Vol 48, Num 14, pp 6535-6543, issn 0888-5885, 9 p.Article

Applications of the water-gas shift reaction. Use of the CO/H₂O couple for the conversion of various organic substrates catalyzed by transition metal complexesESCAFFRE, P; THOREZ, A; KALCK, P et al.Journal of molecular catalysis. 1985, Vol 33, Num 1, pp 87-118, issn 0304-5102Article

The catalytic reactions of CO and H₂O in the presence of hydrocarbons: role of the water gas shift reaction in toluene steam dealkylation over Group VIII metal catalystsDUPREZ, D; DELAHAY, G; MILOUDI, A et al.Nouveau journal de chimie (1977). 1985, Vol 9, Num 8-9, pp 531-534, issn 0398-9836Article

Anchoring of an anionic triruthenium cluster to functionalized silica and its catalytic properties for the water-gas shift reactionDOI, Y; YOKOTA, A; MIYAKE, H et al.Journal of the Chemical Society. Chemical communications. 1984, Num 6, pp 394-395, issn 0022-4936Article

Water-gas shift reaction over an iron oxide/chromium oxide catalyst. II: Stability of activityCHINCHEN, G. C; LOGAN, R. H; SPENCER, M. S et al.Applied catalysis. 1984, Vol 12, Num 1, pp 89-96, issn 0166-9834Article

Iron—Ceria Aerogels Doped with Palladium as Water—Gas Shift Catalysts for the Production of HydrogenBALI, Sumit; HUGGINS, Frank E; ERNST, Richard D et al.Industrial & engineering chemistry research. 2010, Vol 49, Num 4, pp 1652-1657, issn 0888-5885, 6 p.Article

Water gas shift reaction: development and study of efficient homogeneous catalysts based on iridium-diimine complexesCOLLIN, J. P; RUPPERT, R; SAUVAGE, J. P et al.Nouveau journal de chimie (1977). 1985, Vol 9, Num 6, pp 395-404, issn 0398-9836Article

Water-gas shift reaction over an iron oxide/chromium oxide catalyst. I: Mass transport effectCHINCHEN, G. C; LOGAN, R. H; SPENCER, M. S et al.Applied catalysis. 1984, Vol 12, Num 1, pp 69-88, issn 0166-9834Article

Investigation on the Combined Operation of Water Gas Shift and Preferential Oxidation Reactor System on the kW ScaleO'CONNELL, Martin; KOLB, Gunther; SCHELHAAS, Karl-Peter et al.Industrial & engineering chemistry research. 2010, Vol 49, Num 21, pp 10917-10923, issn 0888-5885, 7 p.Conference Paper

The effect of metal-oxygen bond strength on properties of oxides. II: Water-gas shift over bulk oxidesRETHWISCH, D. G; DUMESIC, J. A.Applied catalysis. 1986, Vol 21, Num 1, pp 97-109, issn 0166-9834Article

Kinetic Study of a Novel Active and Stable Catalyst for the Water Gas Shift ReactionCORNAGLIA, Carolina A; MUNERA, John F; LOMBARDO, Eduardo A et al.Industrial & engineering chemistry research. 2011, Vol 50, Num 8, pp 4381-4389, issn 0888-5885, 9 p.Article

Rate Expression for Water-Gas Shift over a Gold/Ferrochrome CatalystVAJANI, Gaurav N; LERK NG, Shea; LUND, Carl R. F et al.Industrial & engineering chemistry research. 2011, Vol 50, Num 18, pp 10493-10499, issn 0888-5885, 7 p.Article

Carbon Capture by Sorption-Enhanced Water―Gas Shift Reaction Process using Hydrotalcite-Based MaterialVAN SELOW, E. R; COBDEN, P. D; VERBRAEKEN, P. A et al.Industrial & engineering chemistry research. 2009, Vol 48, Num 9, pp 4184-4193, issn 0888-5885, 10 p.Article

Investigation of the Enhanced Water Gas Shift Reaction Using Natural and Synthetic Sorbents for the Capture of CO₂MÜLLER, Christoph R; PACCIANI, Roberta; BOHN, Christopher D et al.Industrial & engineering chemistry research. 2009, Vol 48, Num 23, pp 10284-10291, issn 0888-5885, 8 p.Article

Effects of water gas shift gases on Pd-Cu alloy membrane surface morphology and separation propertiesKULPRATHIPANJA, Ames; ALPTEKIN, Gökhan O; FALCONER, John L et al.Industrial & engineering chemistry research. 2004, Vol 43, Num 15, pp 4188-4198, issn 0888-5885, 11 p.Article

Homogeneous catalysis of the water-gas shift reaction by Ru₃(CO)₁₂ in amine solutionsVENALAINEN, T; IISKOLA, E; PAKKANEN, T. A et al.Journal of molecular catalysis. 1986, Vol 34, Num 3, pp 305-308, issn 0304-5102Article

Water gas shift reaction catalyzed by osmium compounds supported on zeolites. Evidences for formation in the presence of a base of a trapped hydrido-carbonyl catalystLENARDA, M; GANZERIA, R; GRAZIANA, M et al.Journal of organometallic chemistry. 1985, Vol 290, Num 2, pp 213-218, issn 0022-328XArticle

Dynamic behavior of automotive catalysts. III: Transient enhancement of water-gas shift over rhodiumHERZ, R. K; SELL, J. A.Journal of catalysis (Print). 1985, Vol 94, Num 1, pp 166-174, issn 0021-9517Article

Zur Wirkungsweise des Katalysatorgiftes Chlorid auf Kohlenmonoxid-Tieftemperaturkonvertierungskatalysatoren des ternären Systems CuO-ZnO-Al₂O₃ = Effet des chlorures, poisons des catalyseurs de conversion de CO à basse température, sur le système ternaire CuO-ZnO-Al₂O₃ = Effect of the catalytic poison chloride on the carbon monoxide low-temperature conversion catalysts, the ternary system CuO-ZnO-Al₂O₃MERTZSCH, N; JODICKE, G; WOLF, F et al.Chemische Technik (Berlin, DDR, 1949). 1984, Vol 36, Num 6, pp 245-246, issn 0045-6519Article

Catalyst affectiveness in low-temperature water-gas shift reactionPETRINI, G; SCHNEIDER, P.Chemical engineering science. 1984, Vol 39, Num 4, pp 637-641, issn 0009-2509Article