Thermal transport in semiconductor nanostructures, graphene, and related two-dimensional materials

doi:10.1088/1674-1056/27/5/056301

Abstract We review experimental and theoretical results on thermal transport in semiconductor nanostructures (multilayer thin films, core/shell and segmented nanowires), single-and few-layer graphene, hexagonal boron nitride, molybdenum disulfide, and black phosphorus. Different possibilities of phonon engineering for optimization of electrical and heat conductions are discussed. The role of the phonon energy spectra modification on the thermal conductivity in semiconductor nanostructures is revealed. The dependence of thermal conductivity in graphene and related two-dimensional (2D) materials on temperature, flake size, defect concentration, edge roughness, and strain is analyzed.

Keywords: phonons thermal conductivity nanowire graphene two-dimensional (2D) materials

Received: 13 February 2018
Revised: 15 March 2018
Accepted manuscript online:

PACS:	63.22.Rc	(Phonons in graphene)
	63.22.-m	(Phonons or vibrational states in low-dimensional structures and nanoscale materials)
	65.80.Ck	(Thermal properties of graphene)
	65.80.-g	(Thermal properties of small particles, nanocrystals, nanotubes, and other related systems)

Fund: Project supported by the Republic of Moldova through the projects 15.817.02.29F and 17.80013.16.02.04/Ua.

Corresponding Authors: Denis L. Nika
E-mail: dlnika@yahoo.com

Cite this article:

Alexandr I. Cocemasov, Calina I. Isacova, Denis L. Nika Thermal transport in semiconductor nanostructures, graphene, and related two-dimensional materials 2018 Chin. Phys. B 27 056301

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