Paul J. Dauenhauer
Cited by
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Top ten fundamental challenges of biomass pyrolysis for biofuels
MS Mettler, DG Vlachos, PJ Dauenhauer
Energy & Environmental Science 5 (7), 7797-7809, 2012
Cycloaddition of Biomass-Derived Furans for Catalytic Production of Renewable p-Xylene
CL Williams, CC Chang, P Do, N Nikbin, S Caratzoulas, DG Vlachos, ...
Acs Catalysis 2 (6), 935-939, 2012
Revealing pyrolysis chemistry for biofuels production: Conversion of cellulose to furans and small oxygenates
MS Mettler, SH Mushrif, AD Paulsen, AD Javadekar, DG Vlachos, ...
Energy & Environmental Science 5 (1), 5414-5424, 2012
Renewable hydrogen by autothermal steam reforming of volatile carbohydrates
PJ Dauenhauer, JR Salge, LD Schmidt
Journal of Catalysis 244 (2), 238-247, 2006
Ultra-selective cycloaddition of dimethylfuran for renewable p-xylene with H-BEA
CC Chang, SK Green, CL Williams, PJ Dauenhauer, W Fan
Green Chemistry 16 (2), 585-588, 2014
Hybrid routes to biofuels
LD Schmidt, PJ Dauenhauer
Nature 447 (7147), 914-915, 2007
The role of sample dimension and temperature in cellulose pyrolysis
AD Paulsen, MS Mettler, PJ Dauenhauer
Energy & Fuels 27 (4), 2126-2134, 2013
Aerosol generation by reactive boiling ejection of molten cellulose
AR Teixeira, KG Mooney, JS Kruger, CL Williams, WJ Suszynski, ...
Energy & Environmental Science 4 (10), 4306-4321, 2011
A DFT study of the acid-catalyzed conversion of 2, 5-dimethylfuran and ethylene to p-xylene
N Nikbin, PT Do, S Caratzoulas, RF Lobo, PJ Dauenhauer, DG Vlachos
Journal of catalysis 297, 35-43, 2013
Pyrolytic conversion of cellulose to fuels: levoglucosan deoxygenation via elimination and cyclization within molten biomass
MS Mettler, AD Paulsen, DG Vlachos, PJ Dauenhauer
Energy & Environmental Science 5 (7), 7864-7868, 2012
Lewis acid zeolites for tandem Diels–Alder cycloaddition and dehydration of biomass-derived dimethylfuran and ethylene to renewable p-xylene
CC Chang, HJ Cho, J Yu, RJ Gorte, J Gulbinski, P Dauenhauer, W Fan
Green Chemistry 18 (5), 1368-1376, 2016
Ab initio dynamics of cellulose pyrolysis: Nascent decomposition pathways at 327 and 600 C
V Agarwal, PJ Dauenhauer, GW Huber, SM Auerbach
Journal of the American Chemical Society 134 (36), 14958-14972, 2012
The chain length effect in pyrolysis: bridging the gap between glucose and cellulose
MS Mettler, AD Paulsen, DG Vlachos, PJ Dauenhauer
Green Chemistry 14 (5), 1284-1288, 2012
Reactive boiling of cellulose for integrated catalysis through an intermediate liquid
PJ Dauenhauer, JL Colby, CM Balonek, WJ Suszynski, LD Schmidt
Green Chemistry 11 (10), 1555-1561, 2009
Millisecond reforming of solid biomass for sustainable fuels
PJ Dauenhauer, BJ Dreyer, NJ Degenstein, LD Schmidt
Angewandte Chemie International Edition 46 (31), 5864-5867, 2007
Renewable p‐Xylene from 2,5‐Dimethylfuran and Ethylene Using Phosphorus‐Containing Zeolite Catalysts
HJ Cho, L Ren, V Vattipalli, YH Yeh, N Gould, B Xu, RJ Gorte, R Lobo, ...
ChemCatChem 9 (3), 398-402, 2017
Kinetics and reaction chemistry for slow pyrolysis of enzymatic hydrolysis lignin and organosolv extracted lignin derived from maplewood
J Cho, S Chu, PJ Dauenhauer, GW Huber
Green Chemistry 14 (2), 428-439, 2012
Millisecond pulsed films unify the mechanisms of cellulose fragmentation
C Krumm, J Pfaendtner, PJ Dauenhauer
Chemistry of Materials 28 (9), 3108-3114, 2016
Fast pyrolysis of cellulose, hemicellulose, and lignin: effect of operating temperature on bio-oil yield and composition and insights into the intrinsic pyrolysis chemistry
KB Ansari, JS Arora, JW Chew, PJ Dauenhauer, SH Mushrif
Industrial & Engineering Chemistry Research 58 (35), 15838-15852, 2019
Principles of dynamic heterogeneous catalysis: surface resonance and turnover frequency response
MA Ardagh, OA Abdelrahman, PJ Dauenhauer
Acs Catalysis 9 (8), 6929-6937, 2019
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