Cameron Priest
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Explore the profile of Cameron Priest including associated specialties, affiliations and a list of published articles.
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10
Citations
69
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Recent Articles
1.
Ma F, Liu X, Wang X, Liang J, Huang J, Priest C, et al.
Fundam Res
. 2024 Jun;
3(6):909-917.
PMID: 38933015
Transition metal supported N-doped carbon (M-N-C) catalysts for oxygen reduction reaction (ORR) are viewed as the promising candidate to replace Pt-group metal (PGM) for proton exchange membrane fuel cells (PEMFCs)....
2.
Feng W, Wu W, Zhao Z, Gomez J, Orme C, Tang W, et al.
ACS Appl Mater Interfaces
. 2023 Jun;
15(26):31430-31437.
PMID: 37339427
Thin solid oxide films are crucial for developing high-performance solid oxide-based electrochemical devices aimed at decarbonizing the global energy system. Among various methods, ultrasonic spray coating (USC) can provide the...
3.
Liu X, Zhao Z, Liang J, Li S, Lu G, Priest C, et al.
Angew Chem Int Ed Engl
. 2023 Apr;
62(23):e202302134.
PMID: 37013693
The harsh working environments of proton exchange membrane fuel cells (PEMFCs) pose huge challenges to the stability of Pt-based alloy catalysts. The widespread presence of metallic bonds with significantly delocalized...
4.
Miao Z, Li S, Priest C, Wang T, Wu G, Li Q
Adv Mater
. 2022 Mar;
34(52):e2200595.
PMID: 35338536
The large-scale commercialization of proton-exchange-membrane fuel cells (PEMFCs) is extremely limited by their costly platinum-group metals (PGMs) catalysts, which are used for catalyzing the sluggish oxygen reduction reaction (ORR) kinetics...
5.
Xie L, Liang J, Priest C, Wang T, Ding D, Wu G, et al.
Chem Commun (Camb)
. 2021 Feb;
57(15):1839-1854.
PMID: 33527108
The electrochemical CO2 reduction reaction (CO2RR) to form highly valued chemicals is a sustainable solution to address the environmental issues caused by excessive CO2 emissions. Generally, it is challenging to...
6.
Zhu Y, Yang X, Peng C, Priest C, Mei Y, Wu G
Small
. 2021 Jan;
17(16):e2005148.
PMID: 33448131
The electrochemical CO reduction reaction (CO RR) is a promising strategy to achieve electrical-to-chemical energy storage while closing the global carbon cycle. The carbon-supported single-atom catalysts (SACs) have great potential...
7.
Liu R, Liu W, Bu Y, Yang W, Wang C, Priest C, et al.
ACS Nano
. 2020 Nov;
14(12):17308-17320.
PMID: 33253548
Improving the sulfur loading in cathodes is a significant challenge for practical lithium-sulfur batteries. Although carbonaceous sulfur hosts can achieve higher sulfur content and loading, the low tap densities of...
8.
Liang J, Zhu L, Chen S, Priest C, Liu X, Wang H, et al.
Chem Asian J
. 2020 Jul;
15(18):2868-2872.
PMID: 32725801
It is of great importance to develop highly efficient and stable Pt-free catalysts for electrochemical hydrogen generation from water electrolysis. Here, monodisperse 7.5 nm copper-doped ruthenium hollow nanoparticles (NPs) with...
9.
Li Y, Wang H, Priest C, Li S, Xu P, Wu G
Adv Mater
. 2020 Jul;
33(6):e2000381.
PMID: 32671924
Clean and efficient energy storage and conversion via sustainable water and nitrogen reactions have attracted substantial attention to address the energy and environmental issues due to the overwhelming use of...
10.
He Y, Liu S, Priest C, Shi Q, Wu G
Chem Soc Rev
. 2020 Apr;
49(11):3484-3524.
PMID: 32342064
The urgent need to address the high-cost issue of proton-exchange membrane fuel cell (PEMFC) technologies, particularly for transportation applications, drives the development of simultaneously highly active and durable platinum group...