Theoretical analysis of thermal boundary conductance of $MoS_{2}-SiO_{2}$ and $WS_{2}-SiO_{2}$ interface

Content Provider	Scilit
Author	Ong, Zhun-Yong Cai, Yongqing Zhang, Gang Zhang, Yong-Wei
Copyright Year	2020
Description	Journal: Nanotechnology Understanding the physical processes involved in interfacial heat transfer is critical for the interpretation of thermometric measurements and the optimization of heat dissipation in nanoelectronic devices that are based on transition metal dichalcogenide (TMD) semiconductors. We model the phononic and electronic contributions to the thermal boundary conductance (TBC) variability for the $MoS_{2}-SiO_{2}$ and $WS_{2}-SiO_{2}$ interface. A phenomenological theory to model diffuse phonon transport at disordered interfaces is introduced and yields G = 13.5 and 12.4 MW $K^{−1}$ $m^{−2}$ at 300 K for the $MoS_{2}-SiO_{2}$ and $WS_{2}-SiO_{2}$ interface, respectively. We compare its predictions to those of the coherent phonon model and find that the former fits the $MoS_{2}-SiO_{2}$ data from experiments and simulations significantly better. Our analysis suggests that heat dissipation at the $TMD-SiO_{2}$ interface is dominated by phonons scattered diffusely by the rough interface although the electronic TBC contribution can be significant even at low electron densities (n ≤ $10^{12}$ $cm^{−2}$) and may explain some of the variation in the experimental TBC data from the literature. The physical insights from our study can be useful for the development of thermally aware designs in TMD-based nanoelectronics.
Related Links	https://iopscience.iop.org/article/10.1088/1361-6528/abd208/pdf
ISSN	09574484
e-ISSN	13616528
DOI	10.1088/1361-6528/abd208
Journal	Nanotechnology
Issue Number	13
Volume Number	32
Language	English
Publisher	IOP Publishing
Publisher Date	2020-12-09
Access Restriction	Open
Subject Keyword	Journal: Nanotechnology Condensed Matter Physics
Content Type	Text
Resource Type	Article
Subject	Chemistry Nanoscience and Nanotechnology Mechanics of Materials Mechanical Engineering Bioengineering Electrical and Electronic Engineering