Journal
EPL
Volume 87, Issue 5, Pages -Publisher
EPL ASSOCIATION, EUROPEAN PHYSICAL SOCIETY
DOI: 10.1209/0295-5075/87/56003
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Funding
- NSF [08ZR1409400]
- Local Colleges Faculty Construction of Shanghai MSTC [08210511900]
- Innovation Program of Shanghai MEC [08YZ119]
- Postdoctoral Fund of China [20090450738]
- Special Foundation for Selecting and Training Excellent Young Teacher of Shanghai Colleges
- Research Startup Fund of Shanghai Ocean University
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Density functional calculations are used to systematically evaluate phase stabilities and mechanical properties of two recently proposed carbon crystals (K(4) and M-carbon), along with graphite, cubic diamond and hexagonal diamond. It is found that the K(4) carbon, which can be referred to as a twin of the cubic diamond crystal, is mechanically unstable, implying that it cannot be formed. Remarkably, our calculations not only substantiate the M-carbon phase is a highly incompressible and potentially superhard material but also show that it exhibits mechanical stability. Moreover, a surprisingly small activation barrier (about 0.018 eV/atom) for the transformation of M-carbon to graphite explains some paradoxical experimental observations. Copyright (C) EPLA, 2009
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