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Isotopic effects in chair graphane

Materials Science 2021-07-28 v1 Chemical Physics

Abstract

Graphane is a layered material consisting of a sheet of hydrogenated graphene, with a C:H ratio of 1:1. We study isotopic effects in the properties of chair graphane, where H atoms alternate in a chairlike arrangement on both sides of the carbon layer. We use path-integral molecular dynamics simulations, which allows one to analyze the influence of nuclear quantum effects on equilibrium variables of materials. Finite-temperature properties of graphane are studied in the range 50--1500~K as functions of the isotopic mass of the constituent atoms, using an efficient tight-bonding potential. Results are presented for kinetic and internal energy, atomic mean-square displacements, fluctuations in the C--H bond direction, plus interatomic distances and layer area. At low temperature, substituting 13^{13}C for 12^{12}C gives a fractional change of 2.6×104-2.6 \times 10^{-4} in C--C distance and 3.9×104-3.9 \times 10^{-4} in the graphane layer area. Replacing 2^2H for 1^1H causes a larger fractional change in the C--H bond of 5.7×103-5.7 \times 10^{-3}. The isotopic effect in C--C bond distance increases (decreases) by applying a tensile (compressive) in-plane stress. These results are interpreted in terms of a quasiharmonic approximation for the vibrational modes. Similarities and differences with isotopic effects in graphene are discussed.

Keywords

Cite

@article{arxiv.2107.12853,
  title  = {Isotopic effects in chair graphane},
  author = {Carlos P. Herrero and Rafael Ramirez},
  journal= {arXiv preprint arXiv:2107.12853},
  year   = {2021}
}

Comments

17 pages, 11 figures, 2 tables

R2 v1 2026-06-24T04:33:57.055Z