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Defect Engineering in 2D Materials: Precise Manipulation and Improved Functionalities 被引量:7

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摘要 Two-dimensional(2D)materials have attracted increasing interests in the last decade.The ultrathin feature of 2D materials makes them promising building blocks for next-generation electronic and optoelectronic devices.With reducing dimensionality from 3D to 2D,the inevitable defects will play more important roles in determining the properties of materials.In order to maximize the functionality of 2D materials,deep understanding and precise manipulation of the defects are indispensable.In the recent years,increasing research efforts have been made on the observation,understanding,manipulation,and control of defects in 2D materials.Here,we summarize the recent research progress of defect engineering on 2D materials.The defect engineering triggered by electron beam(e-beam),plasma,chemical treatment,and so forth is comprehensively reviewed.Firstly,e-beam irradiation-induced defect evolution,structural transformation,and novel structure fabrication are introduced.With the assistance of a high-resolution electron microscope,the dynamics of defect engineering can be visualized in situ.Subsequently,defect engineering employed to improve the performance of 2D devices by means of other methods of plasma,chemical,and ozone treatments is reviewed.At last,the challenges and opportunities of defect engineering on promoting the development of 2D materials are discussed.Through this review,we aim to build a correlation between defects and properties of 2D materials to support the design and optimization of high-performance electronic and optoelectronic devices.
出处 《Research》 EI CAS 2019年第1期42-55,共14页 研究(英文)
基金 This work was supported by the National Key Research and Development Program of China(No.2017YFA0205700) the NSFC(Nos.61774034,11704068,61601116,61974021,and 51420105003) the Strategic Priority Research Program of the Chinese Academy of Sciences(Grant No.XDB30000000) the National Science Fund for Distinguished Young Scholars(No.11525415).
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