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Paper detail

A potential superhard carbon allotrope: T5-carbon

A novel stable carbon allotrope is predicted by using first-principles calculations. This allotrope is obtained by replacing one of the two atoms in the primitive cell of diamond with a carbon tetrahedron, thus it contains five atoms in one primitive cell, termed T5-carbon. The stabilities of T5-carbon are checked in structural, thermal, vibrational and energy calculations. The calculations on electronic, thermal, and mechanical properties reveal that T5-carbon is a semiconductor with an indirect band gap of 3.18 eV, and has a lattice thermal conductivity of 409 W/mK. More importantly, the Vickers hardness of T5-carbon is 76.5 GPa which is lower than that of diamond but larger than those of T-carbon and cubic boron nitride, confirming the superhard properties of T5-carbon, suggesting its wide applications in mechanical devices.

preprint2020arXivOpen access
Xian-Yong DingChao ZhangDong-Qi WangBing-Sheng LiQingping WangZhi Gen YuKah-Wee AngYong-Wei Zhang
cond-mat.mtrl-sci
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Xian-Yong DingChao ZhangDong-Qi WangBing-Sheng LiQingping WangZhi Gen YuKah-Wee AngYong-Wei Zhang

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