The atomic origin of nickel-doping-induced catalytic enhancement in MoS2 for electrochemical hydrogen production

Luo Ruichun; Luo Min; Wang ZiqianLiu PanSong ShuangxiWang XiaodongChen Mingwei

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The atomic origin of nickel-doping-induced catalytic enhancement in MoS2 for electrochemical hydrogen production

机译：原子nickel-doping-induced起源催化增强电化学二硫化钼制氢

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Transition metal (TM) doping has been demonstrated to be an efficacious way to boost the catalytic activity of molybdenum disulfide (MoS2) for energy storage and conversion, especially for the hydrogen evolution reaction (HER). Real-space visualization of the atomic structure of Ni doped MoS2 is crucial to understand the role of heteroatoms in enhancing electrocatalysis. By utilizing aberration corrected scanning transmission electron microscopy (STEM), we found that Ni dopants occupy Mo sites in MoS2 synthesized by a one-pot hydrothermal method. Such selective occupation of the single-atom Ni dopants leads to significant lattice distortion and electronic structure modification of the catalytically inert basal planes of MoS2, which are responsible for the enhanced HER catalysis of MoS2 in both acidic and alkaline solutions.

机译：过渡金属(TM)兴奋剂已经证明提高催化是一种有效的方法活动的二硫化钼(监理)能量储存和转换,特别是对于析氢反应(她)。可视化镍掺杂的原子结构二硫化钼理解所扮演的角色是至关重要的杂原子在提高电催化作用。利用像差校正扫描透射电子显微镜(茎),我们发现那Ni dopants占领莫在MoS2 sites合成了一个锅水热的方法。这种选择性占领单原子的镍掺杂物会导致明显的晶格畸变和电子结构的修改催化地惰性基底平面的二硫化钼,负责加强她的催化二硫化钼在酸性和碱性的解决方案。

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来源
《Nanoscale》 |2019年第15期|7123-7128|共6页
作者
Luo Ruichun; Luo Min; Wang ZiqianLiu PanSong ShuangxiWang XiaodongChen Mingwei;
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作者单位

Shanghai Polytech Univ, Dept Phys, Shanghai 201209, Peoples R China;

Johns Hopkins Univ, Dept Mat Sci & Engn, Baltimore, MD 21218 USA;

Shanghai Jiao Tong Univ, Sch Mat Sci & Engn, Shanghai 200240, Peoples R China;

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正文语种英语
中图分类 Online;
关键词
hydrogen production; Catalysis; molybdenum disulfidesElectronic structureHydrogen evolutionlattice distortionenergy storageadulterated productsNickel;

机译：制氢、催化、钼disulfidesElectronic structureHydrogenevolutionlattice distortionenergystorageadulterated productsNickel;

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The atomic origin of nickel-doping-induced catalytic enhancement in MoS2 for electrochemical hydrogen production

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