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Birefringence and Dichroism in Quasi‐1D Transition Metal Trichalcogenides: Direct Experimental Investigation
Author(s) -
Hou Shijun,
Guo Zhengfeng,
Yang Juehan,
Liu YueYang,
Shen Wanfu,
Hu Chunguang,
Liu Shiyuan,
Gu Honggang,
Wei Zhongming
Publication year - 2021
Publication title -
small
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.785
H-Index - 236
eISSN - 1613-6829
pISSN - 1613-6810
DOI - 10.1002/smll.202100457
Subject(s) - birefringence , anisotropy , dichroism , materials science , circular dichroism , optics , polarization (electrochemistry) , ellipsometry , nanomaterials , refraction , condensed matter physics , molecular physics , crystallography , physics , nanotechnology , chemistry , thin film
Birefringence and dichroism are very important properties in optical anisotropy. Understanding the intrinsic birefringence and dichroism of a material can provide great help to utilize its optical anisotropy. But the direct experimental investigation of birefringence in nanoscale materials is rarely reported. As typical anisotropic transition metals trichalcogenides (TMTCs) materials with quasi‐1D structure, TiS 3 and ZrS 3 have attracted extensive attention due to their special crystal structure and optical anisotropy characteristics. Here, the optical anisotropy properties such as birefringence and dichroism of two kinds of quasi‐1D TMTCs, TiS 3 and ZrS 3 , are theoretically and experimentally studied. In experimental results, the anisotropic refraction and anisotropic reflection of TiS 3 and ZrS 3 are studied by polarization‐resolved optical microscopy and azimuth‐dependent reflectance difference microscopy, respectively. In addition, the birefringence and dichroism of ZrS 3 nanoribbon in experiment are directly measured by spectrometric ellipsometry measurements, and a reasonable result is obtained. This work provides the basic optical anisotropy information of TiS 3 and ZrS 3 . It lays a foundation for the further study of the optical anisotropy of these two materials and provides a feasible method for the study of birefringence and dichroism of other nanomaterials in the future.

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