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.
68.
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
67.
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
66.
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
65.
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
2011
64.
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
63.
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
62.
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
61.
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
60.
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
59.
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
58.
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
57.
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
56.
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
55.
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
54.
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
52.
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
51.
T. R. Carlson;Y.-T. Cheng;J. Jae and G. W. Huber, Production of Green Aromatics and Olefins by Catalytic Fast Pyrolysis of Wood Sawdust, Energy and Environmental Science (2011), 4, 145-161 Link
2010
50.
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
49.
Subrahmanyam, A.V.; Thayumanavan, S.; Huber, G.W.; C-C bond Formation Reactions for Biomass-Derived Molecules, ChemSusChem 3(10), 1158-1161 (2010). Link
48.
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
47.
Olcay, H.; Xu, L.; Xu, Y.; Huber, G.; Aqueous-Phase Hydrogenation of Acetic Acid over Transition Metal Catalysts, ChemCatChem, 2, 1420-1424 (2010). Link
46.
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
45.
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
44.
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
43.
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
42.
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
41.
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
40.
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
38.
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
37.
Tompsett, G.A.; Li, N.; and Huber, G.W.; Catalytic Conversion of Sugars to Fuels,
Book Chapter in Thermochemical Conversion of Biomass, edited by Robert Brown,
publisher Wiley, in-press. Link
Huber, G.W.; and Dale, B.E.; Grassoline at the Pump (cover story), Scientific America,
July, 52-59 (2009). Link
35.
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
34.
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
33.
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
32.
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
31.
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
30.
Carlson, T. R.; Tompsett, G. A.; Conner, W. C.; and Huber, G. W.; Aromatic Production
from Catalytic Fast Pyrolysis of Biomass-derived Feedstocks, Topics in Catalysis 52,
241-252 (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
28.
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
27.
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
26.
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
25.
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
24.
Dumesic, J. A.; Huber, G. W.; and Boudart, M.; Rates of Catalytic Reactions, 2nd Edition
of Handbook of Heterogeneous Catalysis, (2008) 3, 1445-1462. 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
22.
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
21.
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
20.
Chheda, J.; Huber, G. W.; and Dumesic, J. A.; Liquid-phase catalytic processing of
biomass-derived oxygenated hydrocarbons to fuels and chemicals, Angewandte Chemie
International Edition, 46, 7164-7183 (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
18.
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
17.
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
16.
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
15.
Huber, G. W.; and Dumesic, J. A.; An overview of aqueous-phase catalytic processes for
production of hydrogen and alkanes in a biorefinery, Catalysis Today, 111, 119-132
(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
13.
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
12.
Davda, R. R.; Shabaker, J. W.; Huber, G. W.; and Dumesic, J. A.; A Review of Catalytic
Issues and Process Conditions for Renewable Hydrogen and Alkanes by Aqueous-Phase
Reforming of Oxygenated Hydrocarbons over Supported Metal Catalysts, Applied
Catalysis B: Environmental (special issue on H2 Production), Applied Catalysis B:
Environmental, 56, 171-186 (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
10.
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
9.
Shabaker, J. W.; Huber, G. W.; and Dumesic, J.A.; Aqueous-Phase Reforming of
Oxygenated Hydrocarbons Over Sn-Modified Raney Ni Catalysts, Journal of Catalysis,
222, 180-191 (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
7.
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
6.
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
5.
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
4.
Davda, R. R.; Shabaker, J. W.; Huber, G. W.; Cortright, R. D.; and Dumesic, J. A.;
Aqueous-phase reforming of ethylene glycol on silica-supported metal catalysts, Applied
Catalysis B: Environmental, 43, 13-26 (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
2.
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
1.
Huber, G. W.; and Bartholomew, C. H.; Pt promotion of Co/SiO2 Fischer-Tropsch
synthesis catalysts, Studies in Surface Science and Catalysis, 136 (Natural Gas
Conversion VI), 283 (2001). Link
Thermochemical Processing of Biomass Conversion into Fuels, Chemicals and Power, edited by Robert C. Brown, (Wiley Series in Renewable Resources)
Chapter 8. Catalytic Coversion of Sugars to Fuels by Geoffrey A. Tompsett, Ning Li and George W. Huber, 2011
Link