S
Sheng Dai
Researcher at Oak Ridge National Laboratory
Publications - 1092
Citations - 76448
Sheng Dai is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Ionic liquid & Catalysis. The author has an hindex of 122, co-authored 985 publications receiving 63472 citations. Previous affiliations of Sheng Dai include Oak Ridge Associated Universities & Zhejiang University.
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Journal ArticleDOI
Boosting electrosynthesis of ammonia on surface-engineered MXene Ti3C2
Jiexiang Xia,Jiexiang Xia,Shize Yang,Bin Wang,Peiwen Wu,Peiwen Wu,Ilja Popovs,Huaming Li,Stephan Irle,Sheng Dai,Huiyuan Zhu,Huiyuan Zhu +11 more
TL;DR: In this article, the MXene Ti3C2 can serve as a promising catalyst for the electrochemical N2 reduction reaction (NRR) under ambient conditions, which can be further optimized through surface engineering.
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Silver-Doped Sol−Gel Film as a Surface-Enhanced Raman Scattering Substrate for Detection of Uranyl and Neptunyl Ions
TL;DR: A surface-enhanced Raman scattering substrate containing silver particles that has the advantage that the silver particles trapped in the sol-gel matrix are much more stable than Ag colloids in liquid media and is used to obtain, for the first time, the surface- enhancement Raman spectrum of neptunyl ions in dilute aqueous solutions.
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Soluble Porous Coordination Polymers by Mechanochemistry: From Metal‐Containing Films/Membranes to Active Catalysts for Aerobic Oxidation
TL;DR: Soluble porous coordination polymers from mechanochemical synthesis are presented through a coordination polymerization between highly contorted, rigid tetraphenol and a broad variety of transition metal ions to become highly active and stable in the aerobic oxidation of allylic C-H bonds.
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Synthesis, Development, and Testing of High-Surface-Area Polymer-Based Adsorbents for the Selective Recovery of Uranium from Seawater
TL;DR: In this article, the authors developed polymer-based adsorbents with high uranium adsorption capacities by grafting amidoxime onto high-surface-area polyethylene (PE) fibers.
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An ionic liquid-based synergistic extraction strategy for rare earths
TL;DR: In this paper, a novel IL-based synergistic extraction system utilizing the ionic liquid tricaprylmethyl-ammonium nitrate ([A336][NO3]) and the commercial extractant di(2-ethylhexyl) 2-methylhexyl phosphonate (DEHEHP) was developed for the extraction of rare earth (RE) nitrates.