Bionic Functional Structures by Femtosecond Laser Micro/nanofabrication Technologies

Nonfiction, Science & Nature, Science, Other Sciences, Nanostructures, Technology, Nanotechnology
Cover of the book Bionic Functional Structures by Femtosecond Laser Micro/nanofabrication Technologies by Guoqiang Li, Springer Singapore
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Author: Guoqiang Li ISBN: 9789811303593
Publisher: Springer Singapore Publication: May 15, 2018
Imprint: Springer Language: English
Author: Guoqiang Li
ISBN: 9789811303593
Publisher: Springer Singapore
Publication: May 15, 2018
Imprint: Springer
Language: English
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

This thesis combines advanced femtosecond laser micro/nanofabrication technologies and frontier bionic design principles to prepare diverse biomimetic micro/nanostructures to realize their functions. By studying the formation mechanism of the micro/nanostructures, the author identifies various artificial structural colors, three-dimensional micro/nanocage arrays, and fish-scale inspired microcone arrays in different processing environments. Multiple functions such as enhanced antireflection, hydrophobicity, and underwater superoleophobicity are achieved by precisely adjusting laser-machining parameters. This novel design and method have extensive potential applications in the context of new colorizing technologies, microfluidics, microsensors, and biomedicine.

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This thesis combines advanced femtosecond laser micro/nanofabrication technologies and frontier bionic design principles to prepare diverse biomimetic micro/nanostructures to realize their functions. By studying the formation mechanism of the micro/nanostructures, the author identifies various artificial structural colors, three-dimensional micro/nanocage arrays, and fish-scale inspired microcone arrays in different processing environments. Multiple functions such as enhanced antireflection, hydrophobicity, and underwater superoleophobicity are achieved by precisely adjusting laser-machining parameters. This novel design and method have extensive potential applications in the context of new colorizing technologies, microfluidics, microsensors, and biomedicine.

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