Mechanical properties characterization of hydrogen-induced graphdiyne and N-graphdiyne: A molecular dynamics simulation

Abstract

18-6-Graphdiyne (18-6-GDY) and C18N6 are low-density carbon-based nanomaterials with notable mechanical adaptability. Using molecular dynamics simulations, this study examines how random hydrogen functionalization affects their anisotropic mechanical behavior under uniaxial tension. Increasing hydrogen coverage from 2.5 % to 10 % degrades mechanical performance in both materials. The X-direction tensile strength of 18-6-GDY decreases from 28.8 to 19.0 GPa, while C18N6 shows a more pronounced reduction. Direction-dependent declines in Young's modulus and toughness highlight the combined influence of nitrogen substitution, hydrogen coverage, and lattice orientation. Copyright © 2024. Published by Elsevier B.V.