Anisotropic Thermal Conductivity of Crystalline Layered SnSe

Overview

Journal Nano Lett

Publisher American Chemical Society

Specialty Biotechnology

Date 2021 Oct 28

PMID 34710326

Citations 7

Authors

Peng Xiao

Emigdio Chavez-Angel

Stefanos Chaitoglou

Marianna Sledzinska

Athanasios Dimoulas

Clivia M Sotomayor Torres

Alexandros El Sachat

Affiliations

Soon will be listed here.

Abstract

The degree of thermal anisotropy affects critically key device-relevant properties of layered two-dimensional materials. Here, we systematically study the in-plane and cross-plane thermal conductivity of crystalline SnSe films of varying thickness (16-190 nm) and uncover a thickness-independent thermal conductivity anisotropy ratio of about ∼8.4. Experimental data obtained using Raman thermometry and frequency domain thermoreflectance showed that the in-plane and cross-plane thermal conductivities monotonically decrease by a factor of 2.5 with decreasing film thickness compared to the bulk values. Moreover, we find that the temperature-dependence of the in-plane component gradually decreases as the film becomes thinner, and in the range from 300 to 473 K it drops by more than a factor of 2. Using the mean free path reconstruction method, we found that phonons with MFP ranging from ∼1 to 53 and from 1 to 30 nm contribute to 50% of the total in-plane and cross-plane thermal conductivity, respectively.

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