Joshua Wicks
Overview
Explore the profile of Joshua Wicks including associated specialties, affiliations and a list of published articles.
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Articles
24
Citations
526
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Recent Articles
1.
Lee M, Kandambeth S, Li X, Shekhah O, Ozden A, Wicks J, et al.
J Am Chem Soc
. 2024 May;
146(20):14267-14277.
PMID: 38717595
Converting CO to synthetic hydrocarbon fuels is of increasing interest. In light of progress in electrified CO to ethylene, we explored routes to dimerize to 1-butene, an olefin that can...
2.
Shirzadi E, Jin Q, Shayesteh Zeraati A, Dorakhan R, Goncalves T, Abed J, et al.
Nat Commun
. 2024 Apr;
15(1):2995.
PMID: 38582773
Improving the kinetics and selectivity of CO/CO electroreduction to valuable multi-carbon products is a challenge for science and is a requirement for practical relevance. Here we develop a thiol-modified surface...
3.
Fan M, Miao R, Ou P, Xu Y, Lin Z, Lee T, et al.
Nat Commun
. 2023 Jun;
14(1):3314.
PMID: 37286531
Renewable CH produced from electrocatalytic CO reduction is viewed as a sustainable and versatile energy carrier, compatible with existing infrastructure. However, conventional alkaline and neutral CO-to-CH systems suffer CO loss...
4.
Jin J, Wicks J, Min Q, Li J, Hu Y, Ma J, et al.
Nature
. 2023 May;
617(7962):724-729.
PMID: 37138081
The carbon dioxide and carbon monoxide electroreduction reactions, when powered using low-carbon electricity, offer pathways to the decarbonization of chemical manufacture. Copper (Cu) is relied on today for carbon-carbon coupling,...
5.
Luo M, Ozden A, Wang Z, Li F, Huang J, Hung S, et al.
Adv Mater
. 2022 Dec;
35(10):e2209567.
PMID: 36584285
Upgrading carbon dioxide/monoxide to multi-carbon C products using renewable electricity offers one route to more sustainable fuel and chemical production. One of the most appealing products is acetate, the profitable...
6.
Nam D, Shekhah O, Ozden A, McCallum C, Li F, Wang X, et al.
Adv Mater
. 2022 Oct;
34(51):e2207088.
PMID: 36245317
High-rate conversion of carbon dioxide (CO ) to ethylene (C H ) in the CO reduction reaction (CO RR) requires fine control over the phase boundary of the gas diffusion...
7.
Hung S, Xu A, Wang X, Li F, Hsu S, Li Y, et al.
Nat Commun
. 2022 Feb;
13(1):819.
PMID: 35145110
Nitrogen-doped graphene-supported single atoms convert CO to CO, but fail to provide further hydrogenation to methane - a finding attributable to the weak adsorption of CO intermediates. To regulate the...
8.
Peng T, Zhuang T, Yan Y, Qian J, Dick G, Behaghel de Bueren J, et al.
J Am Chem Soc
. 2021 Oct;
143(41):17226-17235.
PMID: 34617746
We explore the selective electrocatalytic hydrogenation of lignin monomers to methoxylated chemicals, of particular interest, when powered by renewable electricity. Prior studies, while advancing the field rapidly, have so far...
9.
Liu G, Yang Y, Li Y, Zhuang T, Li X, Wicks J, et al.
Nat Commun
. 2021 Jul;
12(1):4296.
PMID: 34262051
Photoelectrochemical catalysis is an attractive way to provide direct hydrogen production from solar energy. However, solar conversion efficiencies are hindered by the fact that light harvesting has so far been...
10.
Wang X, Ou P, Wicks J, Xie Y, Wang Y, Li J, et al.
Nat Commun
. 2021 Jun;
12(1):3387.
PMID: 34099705
The renewable-electricity-powered CO electroreduction reaction provides a promising means to store intermittent renewable energy in the form of valuable chemicals and dispatchable fuels. Renewable methane produced using CO electroreduction attracts...