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Intercalation Strategy in 2D Materials for Electronics and Optoelectronics
Small Methods ( IF 10.7 ) Pub Date : 2021-08-16 , DOI: 10.1002/smtd.202100567 Zexin Li 1 , Dongyan Li 1 , Haoyun Wang 1 , Ping Chen 1 , Lejing Pi 1 , Xing Zhou 1, 2 , Tianyou Zhai 1
Small Methods ( IF 10.7 ) Pub Date : 2021-08-16 , DOI: 10.1002/smtd.202100567 Zexin Li 1 , Dongyan Li 1 , Haoyun Wang 1 , Ping Chen 1 , Lejing Pi 1 , Xing Zhou 1, 2 , Tianyou Zhai 1
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Intercalation is an effective approach to tune the physical and chemical properties of 2D materials due to their abundant van der Waals gaps that can host high-density intercalated guest matters. This approach has been widely employed to modulate the optical, electrical, and photoelectrical properties of 2D materials for their applications in electronic and optoelectronic devices. Thus it is necessary to review the recent progress of the intercalation strategy in 2D materials and their applications in devices. Herein, various intercalation strategies and the novel properties of the intercalated 2D materials as well as their applications in electronics and optoelectronics are summarized. In the end, the development tendency of this promising approach for 2D materials is also outlined.
中文翻译:
电子和光电二维材料的插层策略
插层是调节二维材料物理和化学性质的有效方法,因为它们具有丰富的范德华间隙,可以容纳高密度的插层客体物质。这种方法已被广泛用于调节二维材料的光学、电学和光电特性,以使其在电子和光电器件中的应用。因此,有必要回顾一下二维材料中嵌入策略的最新进展及其在设备中的应用。在此,总结了各种嵌入策略和嵌入的二维材料的新特性及其在电子和光电子学中的应用。最后,还概述了这种有前途的二维材料方法的发展趋势。
更新日期:2021-09-14
中文翻译:
电子和光电二维材料的插层策略
插层是调节二维材料物理和化学性质的有效方法,因为它们具有丰富的范德华间隙,可以容纳高密度的插层客体物质。这种方法已被广泛用于调节二维材料的光学、电学和光电特性,以使其在电子和光电器件中的应用。因此,有必要回顾一下二维材料中嵌入策略的最新进展及其在设备中的应用。在此,总结了各种嵌入策略和嵌入的二维材料的新特性及其在电子和光电子学中的应用。最后,还概述了这种有前途的二维材料方法的发展趋势。
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