Issue 48, 2019

Synthesis of low-symmetry 2D Ge(1−x)SnxSe2 alloy flakes with anisotropic optical response and birefringence

Abstract

Low-symmetry two-dimensional (2D) materials with unique in-plane anisotropy can promote both fundamental science and practical applications in optics, optoelectronics, electronics, and polarization detection. As a member of 2D materials, doping/alloying material systems have gained great attention owing to the tunable bandgap and special properties. However, the in-plane anisotropic optical and electrical properties of these 2D alloy materials have rarely been reported. In this work, low-symmetry 2D Ge(1−x)SnxSe2 (x = 0–1.0) alloy flakes have been synthesized by chemical vapor deposition (CVD) with a bandgap varying from 1.55 eV (GeSe2, x = 0) to 1.90 eV (SnSe2, x = 1.0). Angle-resolved polarized Raman spectroscopy (ARPRS) is used to confirm the in-plane vibrational anisotropy, and azimuth-dependent reflectance difference microscopy (ADRDM) is applied to visualize the in-plane optical anisotropy. Polarization-dependent transmission spectroscopy (PDTS) is carried out to reflect the in-plane absorptional anisotropy and linear dichroism, and birefringence characteristics are also found in the subsequent studies. All of the results indicate the unique in-plane optical anisotropy and birefringence characteristics of the 2D Ge(1−x)SnxSe2 alloy flakes, providing new opportunities for polarization-controlled devices, optical wave plates, and polarizers.

Graphical abstract: Synthesis of low-symmetry 2D Ge(1−x)SnxSe2 alloy flakes with anisotropic optical response and birefringence

Supplementary files

Article information

Article type
Communication
Submitted
11 Sep 2019
Accepted
20 Nov 2019
First published
20 Nov 2019

Nanoscale, 2019,11, 23116-23125

Synthesis of low-symmetry 2D Ge(1−x)SnxSe2 alloy flakes with anisotropic optical response and birefringence

Y. Liu, M. Wu, Z. Sun, S. Yang, C. Hu, L. Huang, W. Shen, B. Wei, Z. Wang, S. Yang, Y. Ye, Y. Li and C. Jiang, Nanoscale, 2019, 11, 23116 DOI: 10.1039/C9NR07820G

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