Christopher J Chuck
Overview
Explore the profile of Christopher J Chuck including associated specialties, affiliations and a list of published articles.
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Snapshot
Articles
22
Citations
136
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0
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Recent Articles
1.
Huertas Alonso A, Huertas-Alonso A, Gonzalez-Serrano D, Gonzalez-Serrano D, Salgado-Ramos M, Hadidi M, et al.
ChemSusChem
. 2025 Feb;
:e202402508.
PMID: 40008462
Alkyl levulinates (ALs) represent a family of bio-compounds derived from levulinic acid (LA), a platform chemical obtained from lignocellulosic biomass. Medium- and long-chain ALs (pentyl levulinate or longer) have shown...
2.
Al-Nijir M, Chuck C, Bedford M, Henk D
Microbiome
. 2024 Dec;
12(1):267.
PMID: 39707513
Background: The search for alternatives to antibiotic growth promoters in poultry production has increased interest in probiotics. However, the complexity of the interactions between probiotics, gut microbiome, and the host...
3.
Olalere O, Guler F, Chuck C, Leese H, Castro-Dominguez B
RSC Mechanochem
. 2024 Sep;
1(4):375-385.
PMID: 39263416
Extracting edible nutrient-rich food fractions from unconventional sources, such as grass, could play a pivotal role in ensuring food security, bolstering economic prosperity, combating climate change, and enhancing overall quality...
4.
Buchard A, Chuck C, Davidson M, Gobius du Sart G, Jones M, McCormick S, et al.
ACS Catal
. 2023 Feb;
13(4):2681-2695.
PMID: 36846823
The biodegradable, aliphatic polyester poly(lactic acid), PLA, is a leading bio-based alternative to petrochemical-derived plastic materials across a range of applications. Widely reported in the available literature as a benchmark...
5.
Hicks R, Moreno-Beltran M, Gore-Lloyd D, Chuck C, Henk D
Biology (Basel)
. 2021 Dec;
10(12).
PMID: 34943142
is a non-conventional yeast with potential to be used in biotechnological processes, especially those involving low-cost feedstock exploitation and biocontrol applications. The combination of traits that supports these industrial applications...
6.
Abeln F, Chuck C
Microb Cell Fact
. 2021 Dec;
20(1):221.
PMID: 34876155
Lipid-based biofuels, such as biodiesel and hydroprocessed esters, are a central part of the global initiative to reduce the environmental impact of the transport sector. The vast majority of production...
7.
Karamerou E, Parsons S, McManus M, Chuck C
Biotechnol Biofuels
. 2021 Mar;
14(1):57.
PMID: 33663577
Background: Heterotrophic single-cell oils (SCOs) are one potential replacement to lipid-derived biofuels sourced from first-generation crops such as palm oil. However, despite a large experimental research effort in this area,...
8.
Hongthong S, Leese H, Chuck C
ACS Omega
. 2020 Aug;
5(32):20586-20598.
PMID: 32832812
Food waste is a promising resource for the production of fuels and chemicals. However, increasing plastic contamination has a large impact on the efficiency of conversion for the more established...
9.
Abeln F, Hicks R, Auta H, Moreno-Beltran M, Longanesi L, Henk D, et al.
Biotechnol Biofuels
. 2020 Jul;
13:127.
PMID: 32695223
Background: Heterotrophic microbial oils are potentially a more sustainable alternative to vegetable or fossil oils for food and fuel applications. However, as almost all work in the area is conducted...
10.
Parsons S, Allen M, Chuck C
Bioresour Technol
. 2020 Feb;
303:122862.
PMID: 32037189
Oleaginous microalgae and yeast are of increasing interest as a renewable resource for single cell oils (SCOs). These have applications in fuels, feed and food products. In order to become...