Atomically thin two-dimensional (2D) materials exhibit extraordinary optical, electrical, and mechanical properties. Many functional nanostructures and devices of exceptional performance based on 2D materials have been demonstrated. However, the processing of 2D materials remains challenging due to inadequacies that are mainly driven by high fabrication cost, complex steps, and inefficient impurity control. On the other hand, laser-aided processing techniques offer versatility, nanoscale precision, and high throughput. Numerous efforts have showcased the implementation of laser processing and functionalization of 2D materials to control their physical properties and optimize device functionality. In this Perspective, we summarize research progress on laser-enabled thinning, patterning, doping, and functionalization of 2D materials. Continuing advances in optical processing techniques are anticipated to further accelerate the deployment of 2D materials and devices in many fields, including photonics, optoelectronics, and sensor applications.
Wencai Ren, Konstantin ‘kostya’ Novoselov, Yue Qi, Kaicheng Jia, Zhongfan Liu, Oliver J. Burton, Jack Alexander-Webber, Stephan Hofmann, Yang Cao, Long Yu, Quan‐Hong Yang, Young Hee Lee, Yury Gogotsi, Nicholas A. Clark, Р. В. Горбачев, Thomas Olsen, Johanna Rosén, Kristian S. Thygesen, Bjarke S. Jessen, Matthew Yankowitz, Julien Barrier, Hui Deng, Siyuan Dai, D. N. Basov, Xinran Wang, Saptarshi Das, Markus Borsch, R. Huber, M. Kira, Fengnian Xia, Xiao Wang, Zhong‐Shuai Wu, Xinliang Feng, Patrice Simon, Hui‐Ming Cheng, Bilu Liu, Yiyang Xie, Wanqin Jin, Yan Xu, Qing Zhang, Ajay Katiyar, Jong‐Hyun Ahn, Igor Aharonovich, Mark C. Hersam, Stephan Roche, G. Shen, Tian-Ling Ren, Haobin Zhang, Chong Min Koo, Nikhil Koratkar, Max C. Lemme, Andrew J. Pollard
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