Epitaxial growth of ?-InSe and a, ß, and ?-In2Se3 on e-GaSe

Balakrishnan, N; Steer, ED; Patanè, A; Beton, PH; Kovalyuk, ZD; Eaves, L; Smith, EF; Kudrynskyi, ZR

doi:10.1088/2053-1583/aac479

Epitaxial growth of ?-InSe and a, ß, and ?-In2Se3 on e-GaSe

Balakrishnan, N; Steer, ED; Patanè, A; Beton, PH; Kovalyuk, ZD; Eaves, L; Smith, EF; Kudrynskyi, ZR

Authors

Dr Nilanthy Balakrishnan n.balakrishnan@keele.ac.uk

ED Steer

A Patanè

PH Beton

ZD Kovalyuk

L Eaves

EF Smith

ZR Kudrynskyi

Abstract

We demonstrate that ?-InSe and the a, ß and ? phases of In2Se3 can be grown epitaxially on e-GaSe substrates using a physical vapour transport method. By exploiting the temperature gradient within the tube furnace, we can grow selectively different phases of InxSey depending on the position of the substrate within the furnace. The uniform cleaved surface of e-GaSe enables the epitaxial growth of the InxSey layers, which are aligned over large areas. The InxSey epilayers are characterised using Raman, photoluminescence, x-ray photoelectron and electron dispersive x-ray spectroscopies. Each InxSey phase and stoichiometry exhibits distinct optical and vibrational properties, providing a tuneable photoluminescence emission range from 1.3?eV to ~2?eV suitable for exploitation in electronics and optoelectronics.

Acceptance Date	May 14, 2018
Publication Date	Jun 1, 2018
Journal	2D Materials
Publisher	IOP Publishing
Pages	035026 - 035026
DOI	https://doi.org/10.1088/2053-1583/aac479
Keywords	indium selenide, III–VI van der Waals layered crystals, 2D materials, physical vapour transport
Publisher URL	https://doi.org/10.1088/2053-1583/aac479