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Dirac Nodal Arc Semimetal PtSn4: An Ideal Platform for Understanding Surface Properties and Catalysis for Hydrogen Evolution

机译：Dirac节点弧半金属PtSn4：了解表面性质和催化氢释放的理想平台

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Conductivity, carrier mobility, and a suitable Gibbs free energy are important criteria that determine the performance of catalysts for a hydrogen evolution reaction (HER). However, it is a challenge to combine these factors into a single compound. Herein, we discover a superior electrocatalyst for a HER in the recently identified Dirac nodal arc semimetal PtSn4. The determined turnover frequency (TOF) for each active site of PtSn4 is 1.54 H2 s⁻¹ at 100 mV. This sets a benchmark for HER catalysis on Pt‐based noble metals and earth‐abundant metal catalysts. We make use of the robust surface states of PtSn4 as their electrons can be transferred to the adsorbed hydrogen atoms in the catalytic process more efficiently. In addition, PtSn4 displays excellent chemical and electrochemical stabilities after long‐term exposure in air and long‐time HER stability tests.

机译：电导率，载流子迁移率和合适的吉布斯自由能是确定用于析氢反应（HER）的催化剂性能的重要标准。然而，将这些因素组合成单一化合物是一个挑战。在本文中，我们在最近发现的狄拉克节点弧半金属PtSn4中发现了一种用于HER的优良电催化剂。 PtSn4的每个活性位点在100 activemV时确定的周转频率（TOF）为1.54 H2 s ^{-1 。这为HER在基于Pt的贵金属和富含稀土的金属催化剂上的催化作用设定了基准。我们利用PtSn4的稳健表面状态，因为它们的电子可以在催化过程中更有效地转移到吸附的氢原子上。此外，PtSn4在空气中长期暴露和长期HER稳定性测试后，显示出出色的化学和电化学稳定性。}

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期刊名称 Wiley-Blackwell Online Open
作者
Dr. Guowei Li; Dr. Chenguang Fu; Dr. Wujun Shi; Dr. Lin Jiao; Dr. Jiquan Wu; Qun Yang; Dr. Rana Saha; Dr. Machteld E. Kamminga; Dr. Abhay K. Srivastava; Dr. Enke Liu; Aliza N. Yazdani; Nitesh Kumar; Dr. Jian Zhang; Dr. Graeme R. Blake; Dr. Xianjie Liu; Prof. Mats Fahlman; Steffen Wirth; Gudrun Auffermann; Dr. Johannes Gooth; Prof. Stuart Parkin; Prof. Vidya Madhavan; Prof. Xinliang Feng; Dr. Yan Sun; Prof. Claudia Felser;
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年(卷),期 -1(58),37
年度 -1
页码 13107–13112
总页数 6
原文格式 PDF
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Dirac semimetal electrocatalysis hydrogen evolution reaction PtSn4 surface states;

机译：狄拉克半金属;电催化;析氢反应;PtSn4;表面态;

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专利

1. Dirac Nodal Arc Semimetal PtSn4: An Ideal Platform for Understanding Surface Properties and Catalysis for Hydrogen Evolution [J] . Li Guowei, Fu Chenguang, Shi Wujun, Angewandte Chemie . 2019,第37期

机译：DIRAC Nodal弧半型PTSN4：理解表面性质和催化作用的理想平台
2. The giant planar Hall effect and anisotropic magnetoresistance in Dirac node arcs semimetal PtSn4 [J] . Yan J., Luo X., Gao J. J., Journal of Physics. Condensed Matter . 2020,第31期

机译：巨型平面霍尔效应和狄拉科节点弧中的各向异性磁阻半球形PTSN4
3. The giant planar Hall effect and anisotropic magnetoresistance in Dirac node arcs semimetal PtSn4 [J] . Yan J., Luo X., Gao J. J., Journal of Physics. Condensed Matter . 2020,第31期

机译：巨型平面霍尔效应和狄拉科节点弧中的各向异性磁阻半球形PTSN4
4. Terahertz generation from Dirac semimetals surface plasmon polaritons excited by an electron beam [C] . Tao Zhao, Min Hu, Renbin Zhong, International Conference on Infrared, Millimeter, and Terahertz Waves . 2018

机译：由电子束激发的狄拉克半金属表面等离子体激元产生太赫兹
5. De Haas-Van Alphen and Magneto-Transport Properties on Topological Nodal-Line Semimetals ZrXt (X=Si, Ge; M=Se, Te) [D] . Chiu, Yu-Che . 2020

机译：De Haas-van Alphen和拓扑Nodal-Line半球形Zrxt（x = Si，Ge; m = se，te）
6. Dirac semimetal in β-CuI without surface Fermi arcs [O] . Congcong Le, Xianxin Wu, Shengshan Qin, 2018

机译：无表面费米弧的β-CuI中的狄拉克半金属
7. Dirac Nodal Arc Semimetal PtSn 4 : An Ideal Platform for Understanding Surface Properties and Catalysis for Hydrogen Evolution [O] . Guowei Li, Chenguang Fu, Wujun Shi, 2019

机译：Dirac Nodal弧形半球形PTSN 4：理解表面性质和催化作用的理想平台

Dirac Nodal Arc Semimetal PtSn4: An Ideal Platform for Understanding Surface Properties and Catalysis for Hydrogen Evolution

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