Cheng Shao

TL;DR: In this article, the effects of bridging the vibrational spectrum mismatch and bonding at the interface are systematically varied and understood from a molecular dynamics viewpoint, and the results reveal that the bridging and binding effects have a trade-off relationship and, consequently, that bridging can overwhelm the binding effect at a highly mismatched interface.

TL;DR: In this paper, the effect of environmental perturbation on thermal transport properties of low-dimensional (LD) materials has been investigated and a comprehensive review of the literature is provided.

TL;DR: In this paper, a junction structure that the carbon nanotube is bonded with a monolayer graphene, which could potentially enhance the interface thermal conductance, was proposed, and molecular dynamics simulations showed that the interface temperature can be enhanced by at least 40% compared to direct carbon-nanotube and silicon interface with strong covalent bonding, while for weak van der Waals bonding the conductance can be increased by almost one order of magnitude.

TL;DR: In this article, the authors performed two-dimensional atomistic wave-packet simulations to investigate angular-resolved phonon reflection at a surface, including smooth surfaces, periodically rough surfaces, and surfaces with amorphous coatings.