新型超硬四方混合 sp3/sp2 碳异构体 Cx(x = 5、6、7):晶体化学和 Ab Initio 研究

C Pub Date : 2024-07-16 DOI:10.3390/c10030064
Samir F. Matar, V. Solozhenko
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引用次数: 0

摘要

新型超硬四方碳同素异形体 C5、C6 和 C7 的特征是存在 sp3 和 sp2 类碳位点,这些同素异形体是由晶体化学预测并通过量子密度泛函理论(DFT)计算进行广泛研究的。研究发现,所有新的同素异形体都具有内聚性,晶体密度和内聚能沿着 C5-C6-C7 系列降低,这是因为 C=C 乙烯和 C=C=C 丙二烯亚基的存在使结构具有更大的开放性。根据不同模型评估的维氏硬度,所有同素异形体都具有超硬性质,Hv 值从 C5 的 90 GPa 到 C7 的 79 GPa 不等。声带结构证实了新的同素异形体也具有动态稳定性。电子能带结构显示,由于存在 sp2 杂化碳,它们具有类似金属的特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel Superhard Tetragonal Hybrid sp3/sp2 Carbon Allotropes Cx (x = 5, 6, 7): Crystal Chemistry and Ab Initio Studies
Novel superhard tetragonal carbon allotropes C5, C6, and C7, characterized by the presence of sp3- and sp2-like carbon sites, have been predicted from crystal chemistry and extensively studied by quantum density functional theory (DFT) calculations. All new allotropes were found to be cohesive, with crystal densities and cohesive energies decreasing along the C5-C6-C7 series due to the greater openness of the structures resulting from the presence of C=C ethene and C=C=C propadiene subunits, and they were mechanically stable, with positive sets of elastic constants. The Vickers hardness evaluated by different models qualifies all allotropes as superhard, with Hv values ranging from 90 GPa for C5 to 79 GPa for C7. Phonon band structures confirm that the new allotropes are also dynamically stable. The electronic band structures reveal their metallic-like behavior due to the presence of sp2-hybridized carbon.
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