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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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Density Functional Characterization of the Electronic Structure and Visible‐Light Absorption of Cr‐Doped Anatase TiO2
TL;DR: The electron transitions between these impurity states, the conduction band (CB), and the valence band (VB), as well as the d-d transitions between occupied and unoccupied Cr 3d states, provide a reasonable explanation for the experimentally observed major and minor absorption bands.
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Antiferromagnetic Topological Insulator with Nonsymmorphic Protection in Two Dimensions.
TL;DR: It is shown that, in contrast to previously observed AFM topological insulators in three dimensions, an AFM TI can emerge in two dimensions as a result of a nonsymmorphic symmetry that combines the twofold rotation symmetry and half-lattice translation.
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Enhanced photocatalytic degradation of organic pollutants over basic bismuth (III) nitrate/BiVO4 composite.
TL;DR: Basic bismuth (III) nitrate (BBN)/BiVO(4) composites were prepared by a coprecipitation method and a mechanism was proposed for the enhanced photocatalytic activity.
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GeH: a novel material as a visible-light driven photocatalyst for hydrogen evolution
Zhenhua Liu,Zaizhu Lou,Zhujie Li,Gang Wang,Zeyan Wang,Yuanyuan Liu,Baibiao Huang,Shengqing Xia,Xiaoyan Qin,Xiaoyang Zhang,Ying Dai +10 more
TL;DR: A novel 2D material germanane (GeH), which was synthesized by an ion-exchange approach, was firstly found to exhibit photocatalytic performance in the hydrogen evolution of water splitting and decomposition of organic contaminants under illumination of visible light.
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Efficient nitric oxide reduction to ammonia on a metal-free electrocatalyst
TL;DR: In this article, a metal-free electrocatalyst for NO removal was proposed based on first-principles calculations, namely double P atom doped single-layer C2N (2P@C2N).