Crystals (Feb 2021)

Structural and Electronic Properties of Polycrystalline InAs Thin Films Deposited on Silicon Dioxide and Glass at Temperatures below 500 °C

  • Anya Curran,
  • Agnieszka Gocalinska,
  • Andrea Pescaglini,
  • Eleonora Secco,
  • Enrica Mura,
  • Kevin Thomas,
  • Roger E. Nagle,
  • Brendan Sheehan,
  • Ian M. Povey,
  • Emanuele Pelucchi,
  • Colm O’Dwyer,
  • Paul K. Hurley,
  • Farzan Gity

DOI
https://doi.org/10.3390/cryst11020160
Journal volume & issue
Vol. 11, no. 2
p. 160

Abstract

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Polycrystalline indium arsenide (poly InAs) thin films grown at 475 °C by metal organic vapor phase epitaxy (MOVPE) are explored as possible candidates for low-temperature-grown semiconducting materials. Structural and transport properties of the films are reported, with electron mobilities of ~100 cm2/V·s achieved at room temperature, and values reaching 155 cm2/V·s for a heterostructure including the polycrystalline InAs film. Test structures fabricated with an aluminum oxide (Al2O3) top-gate dielectric show that transistor-type behavior is possible when poly InAs films are implemented as the channel material, with maximum ION/IOFF > 250 achieved at −50 °C and ION/IOFF = 90 at room temperature. Factors limiting the ION/IOFF ratio are investigated and recommendations are made for future implementation of this material.

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