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:10.3390/cryst11020160

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

Affiliations

Anya Curran: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Agnieszka Gocalinska: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Andrea Pescaglini: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Eleonora Secco: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Enrica Mura: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Kevin Thomas: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Roger E. Nagle: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Brendan Sheehan: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Ian M. Povey: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Emanuele Pelucchi: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Colm O’Dwyer: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Paul K. Hurley: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland
Farzan Gity: Tyndall National Institute, Dyke Parade, T12 R5CP Cork, Ireland

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.

Published in Crystals

ISSN: 2073-4352 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Chemistry: Crystallography
Website: http://www.mdpi.com/journal/crystals/

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