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The 2D InSe/WS2 Heterostructure with Enhanced Optoelectronic Performance in the Visible Region
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作者 Lu-Lu Yang Jun-Jie Shi +8 位作者 Min Zhang Zhong-Ming Wei Yi-Min Ding Meng Wu Yong He Yu-Lang Cen Wen-Hui Guo shu-hang pan Yao-Hui Zhu 《Chinese Physics Letters》 SCIE CAS CSCD 2019年第9期41-45,共5页
Two-dimensional(2D)InSe and WS2 exhibit promising characteristics for optoelectronic applications.However,they both have poor absorption of visible light due to wide bandgaps:2D InSe has high electron mobility but low... Two-dimensional(2D)InSe and WS2 exhibit promising characteristics for optoelectronic applications.However,they both have poor absorption of visible light due to wide bandgaps:2D InSe has high electron mobility but low hole mobility,while 2D WS2 is on the contrary.We propose a 2D heterostructure composed of their monolayers as a solution to both problems.Our first-principles calculations show that the heterostructure has a type-Ⅱband alignment as expected.Consequently,the bandgap of the heterostructure is reduced to 2.19 eV,which is much smaller than those of the monolayers.The reduction in bandgap leads to a considerable enhancement of the visible-light absorption,such as about fivefold(threefold)increase in comparison to monolayer InSe(WS2)at the wavelength of 490 nm.Meanwhile,the type-Ⅱ band alignment also facilitates the spatial separation of photogenerated electron-hole pairs;i.e.,electrons(holes)reside preferably in the InSe(WS2)layer.As a result,the two layers complement each other in carrier mobilities of the heterostructure:the photogenerated electrons and holes inherit the large mobilities from the InSe and WS2 monolayers,respectively. 展开更多
关键词 Se CBM The 2D InSe/WS2 HETEROSTRUCTURE with ENHANCED OPTOELECTRONIC PERFORMANCE in the Visible Region
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