R. Weingarten; J. Cho; R. Xing; W.C. Conner, Jr. and G. W. Huber; Intrinsic Kinetics and Reaction Engineering of Levulinic Acid Production from Aqueous Glucose Solutions; ChemSusChem; in-press.

J. Cho; S. Chu; P. J. Dauenhaue; and G. W. Huber, Kinetics and reaction chemistryifor slow pyrolysis of enzymatic hydrolysis lignin and organosolv extracted lignin derived from maplewood, Green Chemistry, in-press. Link

Y. Cheng, J. Jae, J. Shi, W. Fan, and G. W. Huber, Renewable Aromatics Production by Catalytic Fast Pyrolysis of Lignocellulosic Biomass with BifunctionalGa/ZSM-5 Catalysts,Angew. Chem. Int. Edit, (in-press). Link

W. Shen; G. A. Tompsett; W. C. Conner; R. Xing and G. W. Huber; Vapor phase butanal self-condensation over unsupported and supported alkaline earth metal oxides, Journal of Catalysis, 286, 248-259, 2012. Link

H. Zhang; T.R. Carlson; R. Xiao; and G. W. Huber; Catalytic Fast Pyrolysis of Wood and Alcohol Mixtures in a Fluidized Bed Reactor (Cover Story), Green Chemistry, 14, 98-110, 2012. Link

V.Mendu;A. E Harman-Ware;M. Crocker;J. Jae;J. Stork;S. Morton;A.Placido;G.W. Huber;and S.DeBolt; Identification and thermochemical analysis of high-lignin feedstocks for biofuel and biochemical production; Biotechnology for Biofuels (2011), 4, 43 Link

V. Agarwal; G. W. Huber; W. C. Conner, Jr. and G.W. Huber; Simulating IR Spectra and Hydrogen Bonding in Cellulose Iβ at Elevated Temperatures, Journal of Chemical Physics (2011), 115(1), 188-194 Link

A.A. Upadhye; W. Qi; and G.W. Huber; Conceptual Process Design: A Systematic Method to Evaluate and Develop Renewable Energy Technologies, AICHE Journal (2011), (Cover Story) 57(9), 2292-2301 Link

A. Teela; G. W. Huber; and D. M. Ford; Separation of acetic acid from the aqueous fraction of fast pyrolysis bio-oils using nanofiltration and reverse osmosis membranes , Journal of Membrane Science (2011),  378(1-2),  495-502 Link

H.J. Kim, S.M. Choi; S. M. Ho; S. Green; G. W. Huber; and W.B. Kim;Efficient electro-oxidation of biomass-derived glycerol over a graphene-supported PtRuelectrocatalyst, Electrochemistry Communications (2011), 13(8), 890-893 Link

Y. Cheng and G.W. Huber, Chemistry of Furan Conversion into Aromatics and Olefins over HZSM-5: A Model Biomass Conversion Reaction; ACS Catalysis (2011), 1(6) 611-628 Link

H. Zhang; Y. Cheng; T. P. Vispute; R. Xiao; and G. W. Huber, Catalytic Conversion of Biomass-derived Feedstocks into Olefins and Aromatics with ZSM-5: The Hydrogen to Carbon Effective Ratio, Energy and Environmental Science (2011) ,4(6), 2297-2307 Link

R. Xing; W. Qi; and G.W. Huber; Production of Furfural and Carboxylic Acids from Waste Aqueous Hemicellulose Solutions from the Pulp and Paper and Cellulosic Ethanol Industries; Energy and Environmental Science (2011), 4(6), 2193-2205 Link

J. Jae; G.A. Tompsett; A.J.Foster; K.D. Hammond; S. M. Auerbach; W.C. Conner; R.F. Lobo; andG.W. Huber; Investigation into the Shape Selectivity of Zeolite Catalysts for Biomass Conversion, Journal of Catalysis(2011), 279, 257-268 Link

R. Weingarten; G. A. Tompsett; Wm. Curtis Conner, Jr. and G. W. Huber; Design of Solid Acid Catalysts for Aqueous Phase Dehydration of Carbohydrates: The Role of Lewis and Brønsted Acid Sites, Journal of Catalysis (2011), 279, 174-182. Link

W.Shen;G. A. Tompsett;K. D. Hammond;R. Xing;F.Dogan;C. P. Grey; W. C. Conner; S. M. Auerbach; andG. W. Huber; Liquid Phase Aldol Condensation Reactions with MgO-ZrO2 and Shape-Selective Nitrogen-Substituted NaY, Applied Catalysis A General, (2011) 392 57-68. Link

53.

H.J. Kim, S.M. Choi;S. Green;G. A. Tompsett;M.H.Seo;S.H. Lee;J. Cho;G. W. Huber; and W.B. Kim;Highly active and stablePtRuSn/C catalyst for electrooxidation of ethylene glycol and glycerol, Applied Catalysis B: Environmental (2011), 101, 366-375 Link

N. Li;G. A. Tompsett;T. Zhang;J. Shi;C. E. Wyman; and G. W. Huber; Green gasoline from aqueous phase hydrodeoxygenation of aqueous sugar solutions prepared by hydrolysis of maple wood, Green Chemistry (2011), 13, 91-101 Link

Li, N., Tompsett G.A. and Huber G.W.; Renewable High-Octane Gasoline by Aqueous-Phase Hydrodeoxygenation of C5 and C6 Carbohydrates over Pt/Zirconium Phosphate Catalysts, ChemSusChem, 3(10), 1154–1157 (2010). Link

Subrahmanyam, A.V.; Thayumanavan, S.; Huber, G.W.; C-C bond Formation Reactions for Biomass-Derived Molecules, ChemSusChem 3(10), 1158-1161 (2010). Link

Cho, J.; Davis, J.M.; Huber, G.W.; The Intrinsic Kinetics and Heats of Reactions for Cellulose Pyrolysis and Char Formation, ChemSusChem, 3(10), 1162–1165 (2010). Link

Olcay, H.; Xu, L.; Xu, Y.; Huber, G.; Aqueous-Phase Hydrogenation of Acetic Acid over Transition Metal Catalysts, ChemCatChem, 2, 1420-1424 (2010). Link

Xing, R.; Subrahmanyam, A.V.; Olcay, H.; Qi, W.; van Walsum, G.P.; Pendse, H.P.; Huber, G.W.; Production of Jet-Fuel-Range Alkanes from Hemicellulose-Derived Aqueous Solutions, Green Chemistry, 12(11), 1933-1946 (2010). Link

Weingarten, R.; Cho, J.; Conner, W.C. Jr.; Huber, G. W.; Kinetics of furfural production by dehydration of xylose in a biphasic reactor with microwave heating, Green Chemistry 12(8), 1423-1429 (2010). Link

Vispute, T.P.; Zhang, H.Y.; Sanna, A.; Xiao, R.; Huber, G.W.; Renewable Chemical Commodity Feedstocks from Integrated Catalytic Processing of Pyrolysis Oils, Science 330(6008), 1222-1227 (2010). Link

Kim, H.J.; Choi, S.M.; Green, S.; Tompsett, G.A.; Lee, S.H.; Huber, G.W.; and Kim W.B.; Highly active and stable PtRuSn/C catalyst for electrooxidations of ethylene glycol and glycerol, Applied Catalysis B: Environmental 101 (3-4), 366-375 (2011). Link

Carlson, T.R.; Jae, J.; Lin, Y.C.; Tompsett, G.A. and Huber, G.W.; Catalytic Fast Pyrolysis of Glucose over ZSM-5, Journal of Catalysis, 270 (1), 110-124. Link

Li, N.; and Huber, G.W.; Aqueous-phase dehydration/hydrogenation of sorbitol: Identification of the reaction pathway, Journal of Catalysis, 270 (1), 48-59. Link

Agarwal, V.; Huber, G.W.; Conner, W.C.; and Auerbach, S.M.; Kinetic stability of nitrogen-substituted sites in HY and silicalite from first principles, Journal of Catalysis, 270(2), 249-255 (2010). Link

39.

Agarwal, V.; Huber, G.W.; Conner, W.C.; and Auerbach, S.M.; DFT Study of Nitrided Zeolites: Mechanism of Nitrogen Substitution in HY and Silicalite, Journal of Catalysis, 269(1), 53-63 (2010). Link

Kim, H.J.; Kim, Y.S.; Seo, M.H.; Choi, S.M.; Cho, J.; Huber, G.W.; and Kim, W.B.; Highly improved oxygen reduction performance over Pt/C-dispersed nanowire network systems; Electrochemistry Communications, 12(1), 32-35, (2010). Link

Huber, G.W.; and Dale, B.E.; Grassoline at the Pump (cover story), Scientific America, July, 52-59 (2009). Link

Wyman, Charles E.; Huber, G.W. “What could be possible with mature biofuels technologies?” Biofuels, Bioproducts & Biorefining (2009), 3(2), 105-107. (Introduction to issue dedicated to The Role of Biomass in America’s Energy Future that
was co-edited by George Huber and Charlie Wyman.) Link

Lin, Y.C.; Cho, J.; Westmoreland, P.R.; and Huber, G.W.; Kinetics and Mechanism of Cellulose Pyrolysis, Journal of Physical Chemistry C, 113 (46), 20097–20107 (2009). Link

Vispute, T. P., Huber, G. W.; Production of hydrogen, alkanes and polyols by aqueous phase processing of wood-derived pyrolysis oils. Green Chemistry (2009), 11(9), 1433-1445. Link

Carlson, T. R.; Jae, J.; and Huber, G. W.; Mechanistic Insights from Isotopic Studies of Glucose Conversion to Aromatics Over ZSM-5, ChemCatChem, 1, 107-110 (2009). Link

Lin, Y.-C.; and Huber, G. W.; The critical role of heterogeneous catalysis in lignocellulosic biomass conversion, Energy and Environmental Science 2, 68-80 (2009). Link

Corma, A.; Huber, G. W.; Sauvanaud, L.; and O’Conner, P.; Biomass to chemicals: Catalytic conversion of glycerol/water mixtures into acrolein, reaction network. Journal of Catalysis, 257, 163-171 (2008). Link

Carlson, T.R.; Vispute, T.P.; and Huber, G.W.; Green Gasoline by Catalytic Fast Pyrolysis of Solid Biomass-derived Compounds, ChemSusChem, 1, 397-400 (2008). Link

Gates, B.C.; Huber, G.W.; Marshall, C.L.; Ross, P.N.; Siirola, J.; and Wang, Y.; Catalysts for Emerging Energy Applications, MRS Bulletin, 33, 429-435 (2008). Link

Vispute, T.P.; and Huber, G.W.; Breaking the Chemical and Engineering Barriers to Lignocellulosic Biofuels, International Sugar Journal, 110, 138, 140, 142, 146, 148-149 (2008). Link

Dumesic, J. A.; Huber, G. W.; and Boudart, M.; Principles of Heterogeneous Catalysis, 2nd Edition of Handbook of Heterogeneous Catalysis, (2008) 1, 1-15. Link

Huber, G.W.; O’Conner, P.; and Corma, A.; Processing of Biomass in Conventional Oil Refineries: Production of High Quality Diesel by Hydrotreating Vegetable Oils in Heavy Vacuum-Oil Mixtures: Impact of the Relative rates of decarboxylation, decarbonylation and dehydration/hydrogenation on product distribution, Applied Catalysis A, 329 120-129 (2007). Link

Corma, A.; Huber, G. W.; Sauvanaud, L.; and O’Conner, P.; Processing of biomass derived oxygenates in the oil refinery: catalytic cracking (FCC) pathways and role of catalysts, Journal of Catalysis, 247, 307-327 (2007). Link

Huber, G. W.; and Corma, A.; Synergies between bio- and oil- refineries for the production of fuels from biomass, Angewandte Chemie International Edition, 207, 7184-7201 (2007). Link

Serrano-Ruiz, J.C.; Huber, G.W.; Sanchez-Castillo, M.A.; Dumesic, J.A.; Rodríguez-Reinoso, F.; Sepulvedo-Escribano, A; Effect of Sn Addition to Pt/CeO₂-Al₂O₃ and Pt/Al₂O₃: An XPS, ¹¹⁹Sn Mossbauer and Microcalorimetry Study, Journal of Catalysis,
241, 378-388 (2006). Link

Barrett, C. B.; Chheda, J.; Huber, G. W.; and Dumesic, J. A.; Single-Reactor Process for Sequential Aldol-Condensation and Hydrogenation of Biomass-Derived Compounds in Water, Applied Catalysis B: Environmental, 66, 111-118 (2006). Link

Huber, G. W.; Iborra, S.; and Corma, A.; Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering, Chemical Reviews 106, 4044-4098 (2006). Link

Huber, G. W.; Shabaker, J.W..; Evans, S.T.; and Dumesic, J. A.; Aqueous-phase reforming of ethylene glycol over supported Pt and Pd bimetallic catalysts, Applied Catalysis B: Environmental, 62, 226-235 (2006). Link

Huber, G. W.; Chheda, J.; Barrett, C. B.; and Dumesic, J. A.; Production of Liquid Alkanes by Aqueous-Phase Processing of Biomass-Derived Carbohydrates, Science, 308, 1446-2079 (2005). Link

Alcalá, R.; Shabaker, J. W.; Huber, G. W.; Sanchez-Castillo, M. A.; and J. A. Dumesic; Experimental and DFT Studies of the Conversion of Ethanol and Acetic Acid on PtSn based Catalysts, Journal of Physical Chemistry B (special issue dedicated to M. Boudart), Journal of Physical Chemistry B, 109, 2074-2075 (2005). Link

Gokale, A.; Huber, G. W.; Dumesic, J. A.; and Mavrikakis, M.; Effect of Sn on the Reactivity of Cu Surfaces, Journal of Physical Chemistry B, 108, 14062-14073 (2004). Link

Huber, G.W.; Cortright, R.D.; and Dumesic, J.A.; Renewable Alkanes by Aqueous-Phase Reforming of Biomass Derived Oxygenates, Angewandte Chemie International Edition, 43, 1549-1551 (2004). Link

Huber, G. W.; Shabaker, J. W.; and Dumesic. J.A.; Raney Ni-Sn Catalyst for H₂ from Biomass-Derived Hydrocarbons, Science, 300, 2075-2078 (2003). Link

Davda, R.R.; Alcalá, R.; Shabaker J.;, Huber, G.; Cortright, R.D.; M. Mavrikakis, M.; and Dumesic, J.A.; DFT and Experimental Studies of C-C and C-O Bond Cleavage in Ethanol and Ethylene Glycol on Pt Catalysts, Studies in Surface Science and Catalysis,
145(Science and Technology in Catalysis 2002), 79-84 (2003). Link

Shabaker, J. W.; Huber, G. W.; Davda, R. R.; Cortright, R. D.; and Dumesic, J. A.; Aqueous-Phase Reforming of Ethylene Glycol Over Supported Platinum Catalysts, Catalysis Letters, 88, 1-8 (2003). Link

Shabaker, J. W.; Davda, R. R.; Huber, G. W.; Cortright, R. D.; and Dumesic, J. A.; Aqueous-Phase Reforming of Methanol and Ethylene Glycol Over Alumina-Supported Platinum Catalysts, Journal of Catalysis, 215, 344-352 (2003). Link

Huber, G. W.; Butala, S.J.M.; Lee, M.L.; and Bartholomew, C.H.; Gd promotion of Co/SiO₂ Fischer-Tropsch synthesis catalysts, Catalysis Letters, 74, 45 (2001). Link

Huber, G. W.; Guymon , C.G.; Conrad, T.L.; Stephenson, B.C.; and Bartholomew, C. H.; Hydrothermal stability of Co/SiO₂ Fischer-Tropsch synthesis catalysts, Studies in Surface Science and Catalysis, 139 (Catalyst Deactivation 2001), 423 (2001). Link