Discovering the forbidden Raman modes at the edges of layered materials

Yao Guo; Weixuan Zhang; Hanchun Wu; Junfeng Han; Yongliang Zhang; Shenghuang Lin; Chunru Liu; Kang Xu; Jingsi Qiao; Wei Ji; Qing Chen; Song Gao; Wenjing Zhang; Xiangdong Zhang; Yang Chai

doi:10.1126/sciadv.aau6252

Discovering the forbidden Raman modes at the edges of layered materials

Yao Guo, Weixuan Zhang, Hanchun Wu, Junfeng Han, Yongliang Zhang, Shenghuang Lin, Chunru Liu, Kang Xu, Jingsi Qiao, Wei Ji, Qing Chen, Song Gao, Wenjing Zhang, Xiangdong Zhang^*, Yang Chai

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article › peer-review

39 Citations (Scopus)

Abstract

The edges of layered materials have unique properties that substantially differ from the body regions. In this work, we perform a systematic Raman study of the edges of various layered materials (MoS₂, WS₂, WSe₂, PtS₂, and black phosphorus). The Raman spectra of the edges feature newly observed forbidden Raman modes, which are originally undetectable from the body region. By selecting the edge type and the polarization directions of the incident and scattered light, all forbidden Raman modes are distinctly detected. Optical simulations show that the edges of layered materials drastically distort the electromagnetic fields of both the incident and scattered light, so that the light interacts with the edges in a distinct way, which differs from its interactions with the body regions.

Original language	English
Article number	eaau6252
Journal	Science advances
Volume	4
Issue number	12
DOIs	https://doi.org/10.1126/sciadv.aau6252
Publication status	Published - 14 Dec 2018

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title = "Discovering the forbidden Raman modes at the edges of layered materials",

abstract = "The edges of layered materials have unique properties that substantially differ from the body regions. In this work, we perform a systematic Raman study of the edges of various layered materials (MoS2, WS2, WSe2, PtS2, and black phosphorus). The Raman spectra of the edges feature newly observed forbidden Raman modes, which are originally undetectable from the body region. By selecting the edge type and the polarization directions of the incident and scattered light, all forbidden Raman modes are distinctly detected. Optical simulations show that the edges of layered materials drastically distort the electromagnetic fields of both the incident and scattered light, so that the light interacts with the edges in a distinct way, which differs from its interactions with the body regions.",

author = "Yao Guo and Weixuan Zhang and Hanchun Wu and Junfeng Han and Yongliang Zhang and Shenghuang Lin and Chunru Liu and Kang Xu and Jingsi Qiao and Wei Ji and Qing Chen and Song Gao and Wenjing Zhang and Xiangdong Zhang and Yang Chai",

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AU - Guo, Yao

AU - Zhang, Weixuan

AU - Wu, Hanchun

AU - Han, Junfeng

AU - Zhang, Yongliang

AU - Lin, Shenghuang

AU - Liu, Chunru

AU - Xu, Kang

AU - Qiao, Jingsi

AU - Ji, Wei

AU - Chen, Qing

AU - Gao, Song

AU - Zhang, Wenjing

AU - Zhang, Xiangdong

AU - Chai, Yang

PY - 2018/12/14

Y1 - 2018/12/14

N2 - The edges of layered materials have unique properties that substantially differ from the body regions. In this work, we perform a systematic Raman study of the edges of various layered materials (MoS2, WS2, WSe2, PtS2, and black phosphorus). The Raman spectra of the edges feature newly observed forbidden Raman modes, which are originally undetectable from the body region. By selecting the edge type and the polarization directions of the incident and scattered light, all forbidden Raman modes are distinctly detected. Optical simulations show that the edges of layered materials drastically distort the electromagnetic fields of both the incident and scattered light, so that the light interacts with the edges in a distinct way, which differs from its interactions with the body regions.

AB - The edges of layered materials have unique properties that substantially differ from the body regions. In this work, we perform a systematic Raman study of the edges of various layered materials (MoS2, WS2, WSe2, PtS2, and black phosphorus). The Raman spectra of the edges feature newly observed forbidden Raman modes, which are originally undetectable from the body region. By selecting the edge type and the polarization directions of the incident and scattered light, all forbidden Raman modes are distinctly detected. Optical simulations show that the edges of layered materials drastically distort the electromagnetic fields of both the incident and scattered light, so that the light interacts with the edges in a distinct way, which differs from its interactions with the body regions.

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Discovering the forbidden Raman modes at the edges of layered materials

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