材料科学
范德瓦尔斯力
之字形的
各向异性
各向同性
二色性
线性二色性
凝聚态物理
光电子学
圆二色性
光学
结晶学
物理
分子
量子力学
几何学
数学
化学
作者
Zhenhua Wei,Xiaoming Zheng,Yuehua Wei,Xiangzhe Zhang,Wei Luo,Jinxin Liu,Gang Peng,Han Huang,Tieyu Lv,Xueao Zhang,Chuyun Deng
标识
DOI:10.1002/adom.202201962
摘要
Abstract Driven by the unique linear dichroism feature of anisotropic two‐dimensional (2D) materials, much attempt has been made to introduce artificial anisotropy into isotropic 2D materials to deliver polarization‐sensitive performance. However, those methods have not been widely promoted because of technical limitations. This paper reports on the successful modulation to the structural symmetry of WSe 2 through van der Waals (vdW) interlayer coupling. Correspondingly, both the polarized Raman and photoluminescence (PL) spectra of WSe 2 in heterostructure exhibit periodic variation tendency. Similarly, direction‐sensitive electronic transport has also been observed in WSe 2 /CrOCl heterostructure, and the conductance along armchair direction is ≈1.5 times of that along zigzag direction. As a functional illustration to the interlayer coupling induced linear dichroism, angle‐dependent photodetection is conducted to WSe 2 /CrOCl device. With light irradiation at 532 nm, the device photocurrent along armchair direction is 1.27 times higher than that along zigzag direction. The abnormal linear dichroism of WSe 2 in the study clearly proves that few‐layer WSe 2 on CrOCl flake has been entitled with artificial anisotropy. The interlayer coupling method is feasible and practical in 2D‐material range, offering the possibility to develop polarization‐dependent electronic, pyroelectric, and photoelectric devices from isotropic 2D materials.
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