Inorg. Chem.
 2022
DOI: 10.1021/acs.inorgchem.2c02957
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Synthesis, Phase Evolutions, and Stabilities of Boron-Rich Tungsten Borides at High Pressure

Chao Gu
1
,
Xuefeng Zhou
2
,
Dejiang Ma
3
et al.

Abstract: Boron-rich tungsten borides such as WB2+x and WB3+x have been highly expected to be superhard with many advantages over conventional superhard materials. However, because the formation of boron-rich tungsten borides is thermodynamically unfavorable at ambient pressure, their crystal structures, compositions, and properties are largely unexplored, which have impeded the rational design of functional materials in the W–B family. In this work, using unique high-pressure reactions, we report a systematic synthes… Show more

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Cited by 3 publications
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Improving the hardness of tungsten boride-based composites through titanium doping

Zhao,
Qiu,
Xue
et al. 2024
Materials Letters
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Improving the hardness of tungsten boride-based composites through titanium doping

Zhao,
Qiu,
Xue
et al. 2024
Materials Letters
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Facile Synthesis of Tungsten Diboride (WB2-191) in Molten Salt and Its Hydrogen Evolution Performance in Acidic and Alkaline Media

Liu,
Cao,
Wen
et al. 2024
ACS Sustainable Chem. Eng.
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Improving the Hardness of Tungsten Boride-Based Composites Through Titanium Doping

Zhao,
Qiu,
Xue
et al. 2023
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