Y
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.
Papers
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Ultrahigh efficient and selective adsorption of U(VI) with amino acids-modified magnetic chitosan biosorbents: Performance and mechanism.
TL;DR: In this paper , the results of adsorption of uranium with amino acids-modified magnetic chitosans were carried out using kinetics (pseudo-first-order, pseudo-second-order and intraparticle diffusion models) and isotherms models.
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Ideal two-dimensional systems with a gain Rashba-type spin splitting: SrFBiS2and BiOBiS2nanosheets
TL;DR: In this article, the authors reported a giant Rashba-type spin splitting in SrFBiS2 and BiOBiS2 nanosheets originating from their hidden local polar atomic configurations, and they observed two sets of Rashba spin splittings in both materials; this is different from most of the previous studied Rashba systems, in which there is only one set of spin splitting.
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V2O5/polypyrrole core-shell nanotubes for gas sensor.
TL;DR: Gas sensing tests showed that the polypyrrole-coated V-O nanotubes hybrids possessed very high sensitivity to ethanol gas at room temperature, implying its potential application for gas sensors.
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Electronic structure and optical properties of Ag-MoS2 composite systems
TL;DR: In this article, the adsorption properties of single Ag atom and Ag clusters on monolayer MoS2 as well as the energy transfer mechanism were studied to understand the stability and the high photocatalytic activity of Ag-MoS2 composite systems.
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Transformation from Ag@Ag3PO4 to Ag@Ag2SO4 hybrid at room temperature: preparation and its visible light photocatalytic activity
TL;DR: In this article, an Ag/Ag2SO4 hybrid photocatalysts were obtained via a facile redox-precipitation reaction approach by using Ag@Ag3PO4 nanocomposite as the precursor and KMnO4 as the oxidant.