单层
剥脱关节
插层(化学)
超晶格
材料科学
半导体
Crystal(编程语言)
产量(工程)
纳米技术
化学工程
光电子学
石墨烯
化学
无机化学
复合材料
计算机科学
工程类
程序设计语言
作者
Zhaoyang Lin,Zhong Wan,Frank Song,Bolong Huang,Chuancheng Jia,Qi Qian,Joon Sang Kang,Yutong Wu,Xingxu Yan,Lele Peng,Chengzhang Wan,Jingyuan Zhou,Zdeněk Sofer,Imran Shakir,Zeyad Almutairi,Sarah H. Tolbert,Xiaoqing Pan,Yongjie Hu,Yu Huang,Xiangfeng Duan
出处
期刊:Chem
[Elsevier BV]
日期:2021-04-15
卷期号:7 (7): 1887-1902
被引量:75
标识
DOI:10.1016/j.chempr.2021.03.022
摘要
Summary
The scalable preparation of high-purity monolayers is essential for practically integrating two-dimensional (2D) semiconductors in diverse technologies but remains a persistent challenge. Previous efforts to exfoliate 2D layered crystals by the organic ammonium intercalation usually produce few-layer nanosheets owing to a self-retarding effect that hinders the complete intercalation in neighboring layers. Herein, we report a unique "intercalation and separation" chemistry with a constant self-refreshing crystal surface that mitigates the self-retarding effect to ensure a complete intercalation of the bulk crystal, ultimately enabling high-yield solution-phase exfoliation of 2D semiconductor monolayers in excellent purity (e.g., monolayer purity of >95% for In2Se3 and InSe). Furthermore, we have assembled large-area organic/inorganic hybrid superlattices with diverse organic molecules and inorganic 2D monolayer crystals, thus creating a family of artificial superlattice materials with atomically modulated chemical compositions, widely tunable superlattice periodicities, and specifically tailorable electronic and thermal properties.
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