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Ying Dai
Researcher at Shandong University
Publications - 827
Citations - 41002
Ying Dai is an academic researcher from Shandong University. The author has contributed to research in topics: Photocatalysis & Band gap. The author has an hindex of 87, co-authored 706 publications receiving 31538 citations. Previous affiliations of Ying Dai include North Carolina State University & Northern Illinois University.
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Ag@AgCl: A Highly Efficient and Stable Photocatalyst Active under Visible Light
TL;DR: It is shown that such a photocatalyst can be obtained from silver chloride by exploiting its photosensitivity, and the resulting plasmonic photoc atalyst is highly efficient and stable under visible-light illumination.
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Oxygen vacancy induced band-gap narrowing and enhanced visible light photocatalytic activity of ZnO.
Junpeng Wang,Zeyan Wang,Baibiao Huang,Yandong Ma,Yuanyuan Liu,Xiaoyan Qin,Xiaoyang Zhang,Ying Dai +7 more
TL;DR: The ZnO with oxygen vacancies are found to be efficient for photodecomposition of 2,4-dichlorophenol under visible light irradiation and a narrowing bandgap can be confirmed by the enhancement of the photocurrent response when theZnO was irradiated with visible light.
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Engineering BiOX (X = Cl, Br, I) nanostructures for highly efficient photocatalytic applications
TL;DR: Recent advances and emerging strategies in tailoring BiOX (X = Cl, Br, I) nanostructures to boost their photocatalytic properties are surveyed.
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Evidence of the existence of magnetism in pristine VX₂ monolayers (X = S, Se) and their strain-induced tunable magnetic properties.
TL;DR: It is proposed that the strain-dependent magnetic moment is related to the strong ionic-covalent bonds, while both the ferromagnetism and the variation in strength of magnetic coupling with strain arise from the combined effects of both through-bond and through-space interactions.
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Plasmonic photocatalysts: harvesting visible light with noble metal nanoparticles
TL;DR: This article surveys various plasmonic photocatalysts that have been prepared and characterized in recent years and describes the metal-semiconductor composite photocatalysis, in which noble metal nanoparticles are deposited on the surface of polar semiconductor or insulator particles.