With the increasing development of advanced technologies and new materials, recent trends in laser processing-assisted two-dimensional (2D) functional materials have gained significant interest. The ability to precisely control the features of these 2D materials through laser processing has expanded their potential applications in various fields. This review presents a comprehensive summary of recent trends in and potential applications of laser-assisted processing of 2D functional materials. General concepts of working principles, key parameters (i.e., laser wavelength, pulse duration, and repetition rate), and technical approaches (i.e., direct laser writing, doping, thinning, and creating defects) of laser processing are first introduced and discussed carefully. Laser processing-assisted 2D functional materials are then extensively discussed and listed. Finally, some specific applications (i.e., sensing devices, semiconductors, supercapacitors, and batteries, etc.) of laser processing-assisted 2D functional materials are presented. This review provides insights into laser processing-assisted 2D functional materials, offering guidance to researchers and industries on selecting the most suitable advanced technologies and potential 2D materials. This review also offers viewpoints and outlooks for future research directions and potential innovations that will markedly contribute to advances in laser processing-assisted 2D functional materials.

中文翻译：

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激光加工辅助二维功能材料及其具体应用的全面综述


随着先进技术和新材料的不断发展，激光加工辅助二维（2D）功能材料的最新趋势引起了人们的极大兴趣。通过激光加工精确控制这些二维材料的特性的能力扩大了它们在各个领域的潜在应用。本综述全面总结了二维功能材料激光辅助加工的最新趋势和潜在应用。首先介绍并仔细讨论了激光加工的工作原理、关键参数（即激光波长、脉冲持续时间和重复率）和技术方法（即激光直写、掺杂、减薄和产生缺陷）的一般概念。随后广泛讨论并列出了激光加工辅助的二维功能材料。最后，介绍了激光加工辅助二维功能材料的一些具体应用（即传感器件、半导体、超级电容器和电池等）。本综述提供了对激光加工辅助二维功能材料的见解，为研究人员和行业选择最合适的先进技术和潜在的二维材料提供指导。这篇综述还提供了对未来研究方向和潜在创新的观点和展望，这些方向和潜在创新将显着促进激光加工辅助二维功能材料的进步。