Intralayer Negative Poisson's Ratio in 2D Black Arsenic by Strain Engineering-Reference-Cited by-同舟云学术

Intralayer Negative Poisson's Ratio in 2D Black Arsenic by Strain Engineering

Published:2023-09-13 Issue:12 Volume:4 Page:
ISSN:2688-4062
Container-title:Small Structures
language:en
Short-container-title:Small Structures

Author:

Zhang Jingjing¹²,Zhang Weihan³,Zhang Leining⁴,Du Guoshuai¹²,Yu Yunfei¹²,Xia Qinglin⁵,Wu Xu¹⁶,Wang Yeliang⁶,Ji Wei³,Qiao Jingsi¹⁶,Ding Feng⁷,Chen Yabin¹²^ORCID

Affiliation:

1. Advanced Research Institute of Multidisciplinary Sciences Beijing Institute of Technology Beijing 100081 P. R. China

2. School of Aerospace Engineering Beijing Institute of Technology Beijing 100081 P. R. China

3. Beijing Key Laboratory of Optoelectronic Functional Materials & Micro-Nano Devices Department of Physics Renmin University of China Beijing 100872 P. R. China

4. Beijing Key Laboratory of Construction Tailorable Advanced Functional Materials and Green Applications MOE Key Laboratory of Cluster Science School of Chemistry and Chemical Engineering Beijing Institute of Technology Beijing 100081 P. R. China

5. School of Physics and Electronics Hunan Key Laboratory of Nanophotonics and Devices Central South University Changsha 410083 P. R. China

6. MIIT Key Laboratory for Low-Dimensional Quantum Structure and Devices School of Information and Electronics Beijing Institute of Technology Beijing 100081 P.R. China

7. Faculty of Materials Science and Engineering/Institute of Technology for Carbon Neutrality Shenzhen Institute of Advanced Technology Chinese Academy of Sciences Shenzhen 518055 P. R. China

Abstract

Negative Poisson's ratio as the anomalous characteristic generally exists in artificial architectures, such as re‐entrant and honeycomb structures. The structures with negative Poisson's ratio have attracted intensive attention due to their unique auxetic effect and many promising applications in shear‐resistant and energy absorption fields. However, experimental observation of negative Poisson's ratio in natural materials barely happens, although various 2D layered materials are predicted in theory. Herein, the anisotropic Raman response and the intrinsic intralayer negative Poisson's ratio of 2D natural black arsenic (b‐As) via strain engineering strategy are reported. The results are evident by the detailed Raman spectrum of b‐As under uniaxial strain together with density functional theory calculations. It is found that b‐As is softer along the armchair than zigzag direction. The anisotropic mechanical features and van der Waals interactions play essential roles in strain‐dependent Raman shifts and negative Poisson's ratio in the natural b‐As along zigzag direction. This work may shed a light on the mechanical properties and potential applications of 2D puckered materials.

Funder

National Natural Science Foundation of China

Ministry of Science and Technology of the People's Republic of China

Publisher

Wiley

Subject

General Earth and Planetary Sciences,General Environmental Science

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/sstr.202300178

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