Jeremy Luterbacher
Jeremy Luterbacher
Associate Professor at EPFL
Verified email at - Homepage
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Cited by
Formaldehyde stabilization facilitates lignin monomer production during biomass depolymerization
L Shuai, MT Amiri, YM Questell-Santiago, F Héroguel, Y Li, H Kim, ...
Science 354 (6310), 329-333, 2016
Nonenzymatic sugar production from biomass using biomass-derived γ-valerolactone
JS Luterbacher, JM Rand, DM Alonso, J Han, JT Youngquist, ...
Science 343 (6168), 277-280, 2014
Targeted chemical upgrading of lignocellulosic biomass to platform molecules
JS Luterbacher, DM Alonso, JA Dumesic
Green Chemistry 16 (12), 4816-4838, 2014
Solar conversion of CO2 to CO using Earth-abundant electrocatalysts prepared by atomic layer modification of CuO
M Schreier, F Héroguel, L Steier, S Ahmad, JS Luterbacher, MT Mayer, ...
Nature Energy 2 (7), 1-9, 2017
Solvent effects in acid‐catalyzed biomass conversion reactions
MA Mellmer, C Sener, JMR Gallo, JS Luterbacher, DM Alonso, ...
Angewandte chemie international edition 53 (44), 11872-11875, 2014
Organic solvent effects in biomass conversion reactions
L Shuai, J Luterbacher
ChemSusChem 9 (2), 133-155, 2016
Guidelines for performing lignin-first biorefining
MM Abu-Omar, K Barta, GT Beckham, JS Luterbacher, J Ralph, R Rinaldi, ...
Energy & Environmental Science 14 (1), 262-292, 2021
Lignin monomer production integrated into the γ-valerolactone sugar platform
JS Luterbacher, A Azarpira, AH Motagamwala, F Lu, J Ralph, JA Dumesic
Energy & Environmental Science 8 (9), 2657-2663, 2015
Densely Packed, Ultra Small SnO Nanoparticles for Enhanced Activity and Selectivity in Electrochemical CO2 Reduction
J Gu, F Héroguel, J Luterbacher, X Hu
Angewandte Chemie 130 (11), 2993-2997, 2018
A mild biomass pretreatment using γ-valerolactone for concentrated sugar production
L Shuai, YM Questell-Santiago, JS Luterbacher
Green chemistry 18 (4), 937-943, 2016
Protection group effects during α, γ‐diol lignin stabilization promote high‐selectivity monomer production
W Lan, MT Amiri, CM Hunston, JS Luterbacher
Angewandte Chemie 130 (5), 1370-1374, 2018
An “ideal lignin” facilitates full biomass utilization
Y Li, L Shuai, H Kim, AH Motagamwala, JK Mobley, F Yue, Y Tobimatsu, ...
Science advances 4 (9), eaau2968, 2018
Effects of γ-valerolactone in hydrolysis of lignocellulosic biomass to monosaccharides
MA Mellmer, DM Alonso, JS Luterbacher, JMR Gallo, JA Dumesic
Green Chemistry 16 (11), 4659-4662, 2014
Stabilization strategies in biomass depolymerization using chemical functionalization
YM Questell-Santiago, MV Galkin, K Barta, JS Luterbacher
Nature Reviews Chemistry 4 (6), 311-330, 2020
Selective conversion of cellulose to hydroxymethylfurfural in polar aprotic solvents
R Weingarten, A Rodriguez‐Beuerman, F Cao, JS Luterbacher, ...
ChemCatChem 6 (8), 2229-2234, 2014
A lignocellulosic ethanol strategy via nonenzymatic sugar production: Process synthesis and analysis
J Han, JS Luterbacher, DM Alonso, JA Dumesic, CT Maravelias
Bioresource technology 182, 258-266, 2015
Lignin functionalization for the production of novel materials
S Bertella, JS Luterbacher
Trends in Chemistry 2 (5), 440-453, 2020
A heterogeneous microbial consortium producing short-chain fatty acids from lignocellulose
RL Shahab, S Brethauer, MP Davey, AG Smith, S Vignolini, ...
Science 369 (6507), eabb1214, 2020
Hydrothermal gasification of waste biomass: process design and life cycle asessment
JS Luterbacher, M Fröling, F Vogel, F Maréchal, JW Tester
Environmental science & technology 43 (5), 1578-1583, 2009
High‐solids biphasic CO2–H2O pretreatment of lignocellulosic biomass
JS Luterbacher, JW Tester, LP Walker
Biotechnology and bioengineering 107 (3), 451-460, 2010
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