Elasticity of Irida-Graphene-Based and Sun-Graphene-Based Nanotubes: A Study by Fully Atomistic Reactive Classical Molecular Dynamics Simulations
R Kalami and JM De Sousa and SA Ketabi, BRAZILIAN JOURNAL OF PHYSICS, 55, 259 (2025).
DOI: 10.1007/s13538-025-01893-9
In this work, we present a theoretical investigation of the elasticity properties of new exotic carbon allotropes studied recently, called Irida-graphene and Sun-graphene. Despite being theoretically studied in single-layer (2D), a study of the elastic properties of Irida-CNTs and Sun-CNTs has not yet been performed. Thus, we seek to investigate the elastic properties of nanotubes of these new exotic allotropes of carbon in quasi-one-dimensional geometry (1D), nanotubes for different chiralities, diameters, and lengths at room temperature. Our theoretical results obtained in the computational simulation show that the values of Young's modulus for Irida-CNTs are in a slightly larger range (640.34 GPa - 825.00 GPa), while the Young's modulus range of Sun-CNTs is 200.44 GPa - 472.84 GPa, lower values than those presented for conventional carbon nanotubes (CNTs). Our results also show the magnitude of Poisson's ratio for Irida-CNTs and Sun-CNTs from the relative of nanotube bending and stretch, where the Poisson's ratios are positive. For Irida-CNT, nu=0.86-0.98\documentclass12ptminimal \usepackageamsmath \usepackagewasysym \usepackageamsfonts \usepackageamssymb \usepackageamsbsy \usepackagemathrsfs \usepackageupgreek \setlength\oddsidemargin-69pt \begindocument$$\nu = 0.86-0.98$$\enddocument, and for Sun-CNT, nu=1.34-1.64\documentclass12ptminimal \usepackageamsmath \usepackagewasysym \usepackageamsfonts \usepackageamssymb \usepackageamsbsy \usepackagemathrsfs \usepackageupgreek \setlength\oddsidemargin-69pt \begindocument$$\nu = 1.34-1.64$$\enddocument. This tunability of Poisson's ratio can be exploited in the design of nanotube-derived composites, artificial muscles, gaskets, and chemical and mechanical sensors. These findings provide insights into the nanomechanical behavior of Irida-CNTs and Sun- CNTs and their potential applications in nanoscale devices.
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