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Xinchen Wang
Researcher at Fuzhou University
Publications - 395
Citations - 82062
Xinchen Wang is an academic researcher from Fuzhou University. The author has contributed to research in topics: Photocatalysis & Carbon nitride. The author has an hindex of 120, co-authored 349 publications receiving 65072 citations. Previous affiliations of Xinchen Wang include King Abdulaziz University & University of Science and Technology of China.
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Facile Synthesis and Enhanced Visible‐Light Photocatalysis of Graphitic Carbon Nitride Composite Semiconductors
TL;DR: The synthetic CN-CNB-25 semiconductor with a suitable CNB content showed the highest visible-light activity and displayed excellent stability and reusability.
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Polymeres graphitisches Kohlenstoffnitrid für die nachhaltige Photoredoxkatalyse
TL;DR: Graphitisches Kohlenstoffnitrid (g-C3N4) is a vielversprechendes zweidimensionales konjugiertes Polymer, das als kostengunstiger, robuster, metallfreier and im sichtbaren Spektralbereich aktiver Photokatalysator fur die Umwandlung von Sonnenenergie verwendet wird.
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Coating Polymeric Carbon Nitride Photoanodes on Conductive Y:ZnO Nanorod Arrays for Overall Water Splitting.
TL;DR: In this article, the photocurrent density of the polymer electrode is improved to 0.4 µm-cm-2 at 1.23 µm/V vs. the reversible hydrogen electrode in a Na2 SO4 electrolyte solution under AM 1.5 illumination.
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Polymeric Carbon Nitride with Localized Aluminum Coordination Sites as a Durable and Efficient Photocatalyst for Visible Light Utilization
TL;DR: In this article, a bidentate type of metal coordination site was introduced in polymeric carbon nitride (PCN) by an in situ keto-enol cyclization route of acetylacetone and urea to incorporate a metal chelating pyrimidine derivative.
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Layered Heterostructures of Ultrathin Polymeric Carbon Nitride and ZnIn2S4 Nanosheets for Photocatalytic CO2 Reduction
Min Zhou,Sibo Wang,Pengju Yang,Zhishan Luo,Rusheng Yuan,Abdullah M. Asiri,Muhammad Wakeel,Xinchen Wang +7 more
TL;DR: The solution-processed self-assembly strategy renders the building of uniform and intimate junctions between PCN layers and ZnIn2 S4 subunits, which remarkably accelerates the separation and transfer of photogenerated charge carriers and exhibits high stability during repeated runs for five cycles.