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Novel Isomer of Volleyballene Sc 20 C 60 .

Peng-Bo LiuJing-Jing GuoHui-Yan ZhaoHong-Man MaJing WangYing Liu
Published in: The journal of physical chemistry. A (2023)
The Stone-Wales defect is a well-known and significant defective structure in carbon materials, impacting their mechanical, chemical, and electronic properties. Recently, a novel metal-carbon nanomaterial named Volleyballene was discovered, characterized by a C-C bond bridging two carbon pentagons. Using first-principles calculations, a stable Stone-Wales-defective counterpart of Volleyballene, exhibiting T h symmetry, has been proposed by rotating the C-C bond by 90°. Although its binding energy per atom is slightly higher than that of Volleyballene (Δ E b = 0.009 eV/atom), implying marginally lower structural stability, it can maintain its bond structure until the effective temperature reaches about 1500 K, indicating greater thermodynamic stability. Additionally, its highest vibration frequency is 1346.2 cm -1 , indicating a strong chemical bond strength. A theoretical analysis of the Sc 20 C 60 + Sc 20 C 60 binary systems highlights that the stable building block may be applied in potential nanoassemblies.
Keyphrases
  • molecular dynamics
  • electron transfer
  • density functional theory
  • molecular dynamics simulations
  • transition metal
  • high frequency
  • climate change
  • human health
  • editorial comment
  • monte carlo