Femtosecond laser direct writing of functional stimulus-responsive structures and applications

Diverse natural organisms possess stimulus-responsive structures to adapt to the surrounding environment. Inspired by nature, researchers have developed various smart stimulus-responsive structures with adjustable properties and functions to address the demands of ever-changing application environme...

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Bibliographic Details
Published in:International Journal of Extreme Manufacturing 2023-12, Vol.5 (4), p.42012
Main Authors: Zhang, Yuxuan, Wu, Dong, Zhang, Yachao, Bian, Yucheng, Wang, Chaowei, Li, Jiawen, Chu, Jiaru, Hu, Yanlei
Format: Article
Language:English
Subjects:
Direct laser writing
femtosecond laser direct writing
laser–matter interaction
Machining
multifunctionality
Smart structures
stimulus-responsive structures
Structural response
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Summary:Diverse natural organisms possess stimulus-responsive structures to adapt to the surrounding environment. Inspired by nature, researchers have developed various smart stimulus-responsive structures with adjustable properties and functions to address the demands of ever-changing application environments that are becoming more intricate. Among many fabrication methods for stimulus-responsive structures, femtosecond laser direct writing (FsLDW) has received increasing attention because of its high precision, simplicity, true three-dimensional machining ability, and wide applicability to almost all materials. This paper systematically outlines state-of-the-art research on stimulus-responsive structures prepared by FsLDW. Based on the introduction of femtosecond laser-matter interaction and mainstream FsLDW-based manufacturing strategies, different stimulating factors that can trigger structural responses of prepared intelligent structures, such as magnetic field, light, temperature, pH, and humidity, are emphatically summarized. Various applications of functional structures with stimuli-responsive dynamic behaviors fabricated by FsLDW, as well as the present obstacles and forthcoming development opportunities, are discussed. Fundamentals of femtosecond laser–matter interaction are presented. Fabrication strategies based on femtosecond laser direct writing are reviewed. Diverse stimulus-responsive structures by femtosecond laser direct writing are summarized. Functional applications of these stimulus-responsive structures are discussed.
ISSN:2631-8644
2631-7990
DOI:10.1088/2631-7990/acf798