SnSe2thermal conductivity from optothermal Raman and Stokes/anti-Stokes thermometry

Micah P. Vallin, Rijan Karkee, Theresa M. Kucinski, Huan Zhao, Han Htoon, Chanho Lee, Ramon M. Martinez, Saryu J. Fensin, Richard Z. Zhang, Michael T. Pettes

Research output: Contribution to journalArticlepeer-review

Abstract

The optothermal Raman method is useful in determining the in-plane thermal conductivity of two-dimensional (2D) materials that are either suspended or supported on a substrate. We compare this method with the Stokes/anti-Stokes scattering thermometry method, which can play a role in both calibration of Raman peak positions as well as extraction of the local phonon temperature. This work demonstrates that the Stokes/anti-Stokes intensity ratio plays an important role in determining the in-plane thermal conductivity of 2D tin diselenide (SnSe2) dry-transferred onto a polished copper (Cu) substrate. The statistically-averaged thermal conductivity of the 108 ± 24 nm-thick SnSe2yielded 5.4 ± 3.5 Wm-1K-1for the optothermal Raman method, and 2.40 ± 0.81 Wm-1K-1for the Stokes/anti-Stokes thermometry method, indicating that the Stokes/anti-Stokes thermometry method to calculate the thermal conductivity of a material can simultaneously increase both precision and accuracy. The uncertainty value was also lowered by a factor of 1.9 from the traditional optothermal Raman method to the Stokes/anti-Stokes thermometry method. The low in-plane thermal conductivity of 2D SnSe2, 1.3-2.9 times lower than bulk, is useful for applications in thermal and electrical energy conversion and thermoelectric devices.

Original languageEnglish
JournalNanotechnology
Volume36
Issue number9
DOIs
StatePublished - Dec 19 2024

Keywords

  • 2D materials
  • anti-Stokes scattering
  • Raman thermometry
  • thermal conductivity
  • thermoelectrics
  • tin diselenide

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