Gold‐Template‐Assisted Mechanical Exfoliation of Large‐Area 2D Layers Enables Efficient and Precise Construction of Moiré Superlattices

材料科学 云纹 超晶格 剥脱关节 纳米技术 堆积 半导体 光电子学 光学 石墨烯 物理 核磁共振
作者
Kang Wu,Hao Wang,Meng Yang,Liu L,Zhenyu Sun,Guojing Hu,Yanpeng Song,Xin Han,Jiangang Guo,Kehui Wu,Baojie Feng,Chengmin Shen,Yuan Huang,Youguo Shi,Zhi Gang Cheng,Haitao Yang,Lihong Bao,Sokrates T. Pantelides,Hong‐Jun Gao
出处
期刊:Advanced Materials [Wiley]
卷期号:36 (23): e2313511-e2313511 被引量:26
标识
DOI:10.1002/adma.202313511
摘要

Abstract Moiré superlattices, consisting of rotationally aligned 2D atomically thin layers, provide a highly novel platform for the study of correlated quantum phenomena. However, reliable and efficient construction of moiré superlattices is challenging because of difficulties to accurately angle‐align small exfoliated 2D layers and the need to shun wet‐transfer processes. Here, efficient and precise construction of various moiré superlattices is demonstrated by picking up and stacking large‐area 2D mono‐ or few‐layer crystals with predetermined crystal axes, made possible by a gold‐template‐assisted mechanical exfoliation method. The exfoliated 2D layers are semiconductors, superconductors, or magnets and their high quality is confirmed by photoluminescence and Raman spectra and by electrical transport measurements of fabricated field‐effect transistors and Hall devices. Twisted homobilayers with angle‐twisting accuracy of ≈0.3°, twisted heterobilayers with sub‐degree angle‐alignment accuracy, and multilayer superlattices are precisely constructed and characterized by their moiré patterns, interlayer excitons, and second harmonic generation. The present study paves the way for exploring emergent phenomena in moiré superlattices.
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