Superlattice Engineering on 2D Bi2Te3‐Sb2Te3 Chalcogenides

Author:

Wang Han1ORCID,Zhang Songqing1ORCID,Luo Huijia1ORCID,Pan Wenwu1ORCID,Zhang Zekai1ORCID,Liu Junliang2ORCID,Ren Yongling1ORCID,Yuan Cailei3ORCID,Lei Wen1ORCID

Affiliation:

1. Department of Electrical Electronic and Computer Engineering The University of Western Australia Crawley WA 6009 Australia

2. School of Integrated Circuits Jiangnan University Wuxi 214122 China

3. Jiangxi Key Laboratory of Nanomaterials and Sensors School of Physics Communication and Electronics Jiangxi Normal University 99 Ziyang Avenue Nanchang 330022 China

Abstract

AbstractAs a focal point in materials science, 2D superlattices, comprising periodically arranged nanostructures, have emerged as promising platforms for engineering, optoelectronic, and quantum phenomena. In this work, an innovative approach is studied to fabricate multi‐layered 2D Bi2Te3‐Sb2Te3 chalcogenide superlattices including wrapped, lateral and vertical ones. Using a novel precursor switching method, wrapped 2D van der Waals superlattices are synthesized via chemical vapor deposition. Thermal annealing and focused ion beam techniques are employed to achieve both lateral and vertical superlattices with controlled dimensions and sharp interfaces. Comprehensive structural and electronic characterization revealed the high crystalline quality and electronic properties of these superlattices. A comprehensive growth model is also developed to elucidate the growth mechanism and optimize the growth parameters. This research demonstrates a feasible approach to fabricate wrapped, lateral, and vertical superlattices, laying the foundation for further advanced study of their physical properties and potential device applications.

Publisher

Wiley

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