Materials (Feb 2019)

A Computational and Experimental Investigation of the Phonon and Optical Properties of Au<sub>2</sub>P<sub>3</sub>

  • Michael Snure,
  • Timothy Prusnick,
  • Elisabeth Bianco,
  • Stefan C. Badescu

DOI
https://doi.org/10.3390/ma12040555
Journal volume & issue
Vol. 12, no. 4
p. 555

Abstract

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In a combined experimental and theoretical study of gold phosphide (Au2P3), we investigate its vibrational properties, band structure, and dielectric properties, providing new insight into the properties of this underexplored material. Using a simple synthesis route, Au2P3 thin films were produced, enabling the first reported Raman analysis of this material. Coupled with first-principles calculations of these Raman modes, this analysis reveals that low-frequency vibrations are due to Au or mixed Au to P, and at higher frequencies, they are due to P vibrations. Further band structure and dielectric calculations reveal Au2P3 to be a narrow band (0.16 eV) indirect semiconductor. This work helps to fill major gaps in our understanding of key properties in this material that will benefit future research in this field.

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