高压下具有单键扶手椅状六嗪结构的六氮化钨。

Tungsten Hexanitride with Single-Bonded Armchairlike Hexazine Structure at High Pressure.

作者信息

Salke Nilesh P, Xia Kang, Fu Suyu, Zhang Youjun, Greenberg Eran, Prakapenka Vitali B, Liu Jin, Sun Jian, Lin Jung-Fu

机构信息

Center for High Pressure Science and Technology Advanced Research, Beijing 100094, China.

National Laboratory of Solid State Microstructures, School of Physics and Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Nanjing 210093, China.

出版信息

Phys Rev Lett. 2021 Feb 12;126(6):065702. doi: 10.1103/PhysRevLett.126.065702.

DOI:10.1103/PhysRevLett.126.065702

PMID:33635680

Abstract

WN_{6} phase discovered at 126-165 GPa after heating of W in nitrogen. XRD refinements reveal a unit cell in space group R3[over ¯]m which is consistent with the WN_{6} structure with armchairlike hexazine (N_{6}) rings, while strong A_{1g} Raman mode confirms its N─N single bonds. Density functional theory (DFT) calculations reveal balanced contributions of attractive interactions between W and covalent N_{6} rings, and repulsions between N_{6} rings that make WN_{6} ultrastiff and tough. The WN_{6} phase displays long bond lengths in the nearest N-N and pressure-enhanced electronic band gap, which pave the way for finding novel nitrides.

摘要

在氮气中加热钨后，于126 - 165吉帕斯卡发现了WN₆相。X射线衍射精修显示其晶胞属于空间群R3̅m，这与具有类似扶手椅状六嗪（N₆）环的WN₆结构一致，同时强烈的A₁g拉曼模式证实了其N─N单键。密度泛函理论（DFT）计算表明，钨与共价N₆环之间的吸引相互作用以及N₆环之间的排斥作用达到平衡，这使得WN₆具有超高的硬度和韧性。WN₆相在最近的N - N间显示出长键长，且具有压力增强的电子带隙，这为发现新型氮化物铺平了道路。

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高压下具有单键扶手椅状六嗪结构的六氮化钨。

Tungsten Hexanitride with Single-Bonded Armchairlike Hexazine Structure at High Pressure.

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