Tuning interfacial thermal conductance of GaN/AlN heterostructure nanowires by constructing core/shell structure

Xue Ren; Cheng-Wei Wu; Shi-Yi Li; Zhong-Xiang Xie; Wu-Xing Zhou

doi:10.1088/1361-648X/acb18b

Tuning interfacial thermal conductance of GaN/AlN heterostructure nanowires by constructing core/shell structure

J Phys Condens Matter. 2023 Jan 23;35(11). doi: 10.1088/1361-648X/acb18b.

Authors

Xue Ren¹, Cheng-Wei Wu¹, Shi-Yi Li¹, Zhong-Xiang Xie², Wu-Xing Zhou¹

Affiliations

¹ School of Materials Science and Engineering and Hunan Provincial Key Laboratory of Advanced Materials for New Energy Storage and Conversion, Hunan University of Science and Technology, Xiangtan 411201, People's Republic of China.
² School of Science, Hunan Institute of Technology, Hengyang 421002, People's Republic of China.

PMID: 36623322
DOI: 10.1088/1361-648X/acb18b

Abstract

The ability to tune the interfacial thermal conductance of GaN/AlN heterojunction nanowires (NWs) with a core/shell structure is shown using molecular dynamics and non-equilibrium Green's functions method. In particular, an increase in the shell thickness leads to a significant improvement of interfacial thermal conductance of GaN/AlN core/shell NWs. At room temperature (300 K), the interfacial thermal conductance of NWs with specific core/shell ratio can reach 0.608 nW K^-1, which is about twice that of GaN/AlN heterojunction NWs due to the weak phonon scattering and phonon localization. Moreover, changing the core/shell type enables one to vary interfacial thermal conductance relative to that of GaN/AlN heterojunction NWs. The results of the study provide an important guidance for solving the thermal management problems of GaN-based devices.

Keywords: GaN/AlN heterogeneous nanowires; interfacial thermal conductance; non-equilibrium Green’s functions; phonon localization.

MeSH terms

Nanowires*
Software