Hua Sheng
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Explore the profile of Hua Sheng including associated specialties, affiliations and a list of published articles.
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30
Citations
131
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Recent Articles
1.
Zhang Z, Wang Y, Xie Y, Tsukamoto T, Zhao Q, Huang Q, et al.
Nat Commun
. 2025 Jan;
16(1):274.
PMID: 39747259
To enable open environment application of artificial photosynthesis, the direct utilization of environmental CO via an oxygen-tolerant reductive procedure is necessary. Herein, we introduce an in situ growth strategy for...
2.
Zhang F, Wang Y, Zhao Q, Zhao H, Dong X, Gu X, et al.
ACS Appl Mater Interfaces
. 2024 Dec;
17(1):1097-1109.
PMID: 39720887
Artificial photosynthesis of hydrogen peroxide (HO) from ambient air, water, and sunlight has attracted considerable attention recently. Despite being extremely challenging to synthesis, sp carbon-conjugated covalent organic frameworks (COFs) can...
3.
Wang Y, Niu B, Zhang Z, Li J, Sheng H, Xu W, et al.
Nano Lett
. 2024 Sep;
24(40):12628-12633.
PMID: 39331820
Spatially separate anchoring redox cocatalysts on the photocatalyst to shunt the charge migration paths is an effective route to regulate the charge flow. Differently, we herein introduce an artificially synthesized...
4.
Yang J, Deng C, Lei Y, Duan M, Yang Y, Chen X, et al.
Angew Chem Int Ed Engl
. 2024 Sep;
64(4):e202416340.
PMID: 39330922
Bismuth vanadate (BVO) ranks among the most promising photoanodes for photoelectrochemical (PEC) water splitting. Nonetheless, slow charge separation and transport, besides the sluggish water oxidation kinetics, are key barriers to...
5.
Zhang W, Deng C, Wang W, Sheng H, Zhao J
Adv Mater
. 2024 Jul;
36(35):e2405825.
PMID: 39003622
Artificial photosynthesis, harnessing solar energy to convert CO into hydrocarbons, presents a promising solution for climate change and energy scarcity. However, photocatalytic CO reduction often terminates at the CO stage...
6.
Yin B, Wang C, Xie S, Gu J, Sheng H, Wang D, et al.
Angew Chem Int Ed Engl
. 2024 May;
63(29):e202405873.
PMID: 38709722
The selectivity of multicarbon products in the CO reduction reaction (CORR) depends on the spin alignment of neighboring active sites, which requires a spin catalyst that facilitates electron transfer with...
7.
Huang X, Li Y, Xie S, Zhao Q, Zhang B, Zhang Z, et al.
Angew Chem Int Ed Engl
. 2024 Apr;
63(24):e202403980.
PMID: 38588065
Electrochemical reduction of CO and nitrate offers a promising avenue to produce valuable chemicals through the using of greenhouse gas and nitrogen-containing wastewater. However, the generally proposed reaction pathway of...
8.
Huang Q, Sheng H
Chemistry
. 2024 Mar;
30(28):e202400352.
PMID: 38470164
The utilization of a magnetic field to manipulate spin states has emerged as a novel approach to enhance efficiency in electrocatalytic reactions, distinguishing from traditional strategies that focus on tuning...
9.
Wang W, Zhang W, Deng C, Sheng H, Zhao J
Angew Chem Int Ed Engl
. 2023 Dec;
63(7):e202317969.
PMID: 38155103
Photocatalytic conversion of CO and H O into fuels and oxygen is a highly promising solution for carbon-neutral recycling. Traditionally, researchers have studied CO reduction and H O oxidation separately,...
10.
Zhao Y, Duan M, Deng C, Yang J, Yang S, Zhang Y, et al.
Nat Commun
. 2023 Apr;
14(1):1943.
PMID: 37029125
Epoxides are significant intermediates for the manufacture of pharmaceuticals and epoxy resins. In this study, we develop a Br/BrO mediated photoelectrochemical epoxidation system on α-FeO. High selectivity (up to >99%)...