激光与光电子学进展, 2020, 57 (11): 111418, 网络出版: 2020-06-02
飞秒激光微纳制造水下气体浸润性表面 下载: 1819次特邀综述
Femtosecond Laser Micro-Nano Fabrication of Underwater Gas Wettable Surface
激光光学 飞秒激光 微纳制造 水下气体浸润性 超疏气 超亲气 laser optics femtosecond laser micro-nano fabrication underwater gas wettability superaerophobicity superaerophilicity
摘要
水下气体浸润性表面在许多领域都具有重要的作用,近年来受到了各国研究人员的密切关注。飞秒激光微纳制造技术作为一种全新的非接触式加工手段,近年来在调控材料表面水下气体浸润性方面进行了许多探索性研究。总结飞秒激光微纳制造技术在水下气体浸润性表面的最新研究进展,从水下超疏气表面、水下超亲气表面、水下超疏气-超亲气转换以及水下气体运输四个方面进行阐述,最后结合当前的研究状况指出该领域目前所存在的问题以及对前景的展望。
Abstract
Underwater gas wettable surface plays an important role in many fields, and it has been paid close attention by researchers from various countries in recent years. As a new non-contact processing method, the femtosecond laser micro-nano fabricating technology has carried out many exploratory studies in controlling material surface underwater gas wettability in recent years. The recent research progress of the femtosecond laser micro-nano fabricating technology in the underwater gas wettability field were summarized from the four aspects of underwater superaerophobic surface, underwater superaerophilic surface, underwater superaerophilicity-superaerophobicity switching and underwater gas transportation. Finally, the existing problems of the field were pointed out combining with the current research status and the prospects of the future were put forward.
吴志鹏, 银恺, 吴俊瑞, 杨帅, 朱卓. 飞秒激光微纳制造水下气体浸润性表面[J]. 激光与光电子学进展, 2020, 57(11): 111418. Zhipeng Wu, Kai Yin, Junrui Wu, Shuai Yang, Zhuo Zhu. Femtosecond Laser Micro-Nano Fabrication of Underwater Gas Wettable Surface[J]. Laser & Optoelectronics Progress, 2020, 57(11): 111418.