AIP Advances (Jan 2017)

Rapid optical determination of topological insulator nanoplate thickness and oxidation

  • Fan Yang,
  • Mariana Sendova,
  • Robin B. Jacobs-Gedrim,
  • Eui Sang Song,
  • Avery Green,
  • Peter Thiesen,
  • Alain Diebold,
  • Bin Yu

DOI
https://doi.org/10.1063/1.4973403
Journal volume & issue
Vol. 7, no. 1
pp. 015114 – 015114-8

Abstract

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The stability of 2D antimony telluride (Sb2Te3) nanoplates in ambient conditions is elucidated. These materials exhibit an anisotropic oxidation mode, and CVD synthesized samples oxidize at a much faster rate than exfoliated samples investigated in previous studies. Optical measurement techniques are introduced to rapidly measure the oxidation modes and thickness of 2D materials. Auger characterization were conducted to confirm that oxygen replaces tellurium as opposed to antimony under ambient conditions. No surface morphology evolution was detected in AFM before and after exposure to air. These techniques were employed to determine the origin of the thickness dependent color change effect in Sb2Te3. It is concluded that this effect is a combination of refractive index change due to oxidation and Fresnel effects.