Mechanical performance of amorphous diamond-like carbon nanowires

Roco, Fiorella R.; Clark, J.; Allende, S.; Soto, W.; Amigo, N.; Figueroa, J.; Bringa, Eduardo M.; Valencia, Felipe J.

Abstract

Amorphous carbon nanowires (NW) are a fundamental piece in the study of novel nanoarchitectures with unexpected mechanical properties. However, the failure mechanism of amorphous carbon NW is still missing. In this study, classical molecular dynamics was employed to conduct stress-strain tests to address the mechanical response of amorphous carbons NW with different radii. This research characterizes the mechanical properties of aC NW with different sp(3) contents, including Youngs modulus and ultimate tensile stress. Our study reveals that plastic deformation is mediated by chemical modifications in carbon bonding, leading to transitions from sp(2) to sp(3) and vice versa. We observed that denser amorphous carbon materials undergo a transition from sp(3) to sp(2) bonding prior to failure, facilitated by the recombination of sp(2) clusters. Additionally, plastic deformation in amorphous carbon NW is facilitated by the formation of shear transformation zones and nanovoids, with the deformation mechanism strongly dependent on the average coordination of carbon atoms. These insights provide valuable information for designing nanomaterials with tailored mechanical properties.

Más información

Título según WOS: Mechanical performance of amorphous diamond-like carbon nanowires
Título de la Revista: DIAMOND AND RELATED MATERIALS
Volumen: 149
Editorial: ELSEVIER SCIENCE SA
Fecha de publicación: 2024
DOI:

10.1016/j.diamond.2024.111546

Notas: ISI