Jeremy S Luterbacher
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Explore the profile of Jeremy S Luterbacher including associated specialties, affiliations and a list of published articles.
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45
Citations
653
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Recent Articles
1.
Zheng S, Sun S, Manker L, Luterbacher J
Acc Chem Res
. 2025 Mar;
PMID: 40048243
ConspectusDwindling fossil resources and their associated environmental concerns have increased interest in biobased products. In particular, many approaches to convert lignocellulosic biomass into small-molecule building blocks are being explored via...
2.
Komarova A, Li Z, Jones M, Erni O, Neuenschwander F, Medrano-Garcia J, et al.
ACS Sustain Chem Eng
. 2024 Aug;
12(34):12879-12889.
PMID: 39211383
The large-scale production of platform chemicals from biomass requires efficient, cost-effective, and sustainable methods. Here, we present three one-pot synthesis routes for producing diformylxylose (DFX), a sugar-based solvent and platform...
3.
Bourmaud C, Bertella S, Bosch Rico A, Karlen S, Ralph J, Luterbacher J
Angew Chem Int Ed Engl
. 2024 May;
63(31):e202404442.
PMID: 38738591
Our ability to study and valorize the lignin fraction of biomass is hampered by the fundamental and still unmet challenge of precisely quantifying native lignin's structural features. Here, we developed...
4.
Chen M, Ralph J, Luterbacher J, Shi Q, Xie X
J Agric Food Chem
. 2023 Dec;
71(51):20751-20761.
PMID: 38065961
There are several methods to isolate near-native lignins, including milled-wood lignin, enzymatic lignin, cellulolytic enzyme lignin, and enzymatic mild-acidolysis lignin. Which one is the most representative of the native lignin?...
5.
Sun S, De Angelis G, Bertella S, Jones M, Dick G, Amstad E, et al.
Angew Chem Int Ed Engl
. 2023 Nov;
63(5):e202312823.
PMID: 38010646
Concerns over the sustainability and end-of-life properties of fossil-derived surfactants have driven interest in bio-based alternatives. Lignocellulosic biomass with its polar functional groups is an obvious feedstock for surfactant production...
6.
Chen M, Li Y, Lu F, Luterbacher J, Ralph J
ACS Sustain Chem Eng
. 2023 Jul;
11(27):10001-10017.
PMID: 37448721
The chemical complexity of lignin remains a major challenge for lignin valorization into commodity and fine chemicals. A knowledge of the lignin features that favor its valorization and which plants...
7.
Questell-Santiago Y, Galkin M, Barta K, Luterbacher J
Nat Rev Chem
. 2023 May;
4(6):311-330.
PMID: 37127959
A central feature of most lignocellulosic-biomass-valorization strategies is the depolymerization of all its three major constituents: cellulose and hemicellulose to simple sugars, and lignin to phenolic monomers. However, reactive intermediates,...
8.
Talebi Amiri M, Dick G, Questell-Santiago Y, Luterbacher J
Nat Protoc
. 2022 Dec;
18(5):1658.
PMID: 36564510
No abstract available.
9.
Bartling A, Stone M, Hanes R, Bhatt A, Zhang Y, Biddy M, et al.
Energy Environ Sci
. 2022 Nov;
14(8):4147-4168.
PMID: 36324336
Reductive catalytic fractionation (RCF) is a promising approach to fractionate lignocellulose and convert lignin to a narrow product slate. To guide research towards commercialization, cost and sustainability must be considered....
10.
Boarino A, Wang H, Olgiati F, Artusio F, Ozkan M, Bertella S, et al.
ACS Sustain Chem Eng
. 2022 Oct;
10(42):14001-14010.
PMID: 36312454
Transmission of viruses through contact with contaminated surfaces is an important pathway for the spread of infections. Antiviral surface coatings are useful to minimize such risks. Current state-of-the-art approaches toward...