Bionic Functional Structures by Femtosecond Laser Micro/nanofabrication Technologies

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.

Nominated as an outstanding Ph.D. thesis by the University of Science and Technology of China Develops a model for the relationship between the laser parameters and the induced micro/nanostructures by combining femtosecond laser micro-/nano-machining technology and bionic design principles Studies the formation mechanism of structural colors, hydrophobic surfaces, and underwater superoleophobic surfaces Discusses the controllability of the laser-induced micro/nanostructures, and verifies the functions experimentally

Autorentext
Previous degrees:

June 2011 South University of Science and Technology, China

M.S., Physics, major field in laser micro/nanofabrication

June 2008 South University of Science and Technology, China

B.S., Optical Information Science and Technology, major field in laser principles & technology

Area of work:

Femtosecond laser interactions with materials. Femtosecond laser micro/nanofabrication. Bio-inspired function structures and their applications.

Honors:

First-class scholarship offered by China Aerospace Science and Technology Corporation, (2014).

Chinese Academy of Sciences Dean Awarding offered by Chinese Academy of Sciences, (2015).

Excellent Doctoral Dissertations offered by Chinese Academy of Sciences, (2016).

Inhalt
Introduction.- Key technological of bionic structure surfaces induced by femtosecond laser.- Bionic structure induced by femtosecond laser.- PDMS surface wetting based on metal template by femtosecond laser.- Three-dimensional porous metal micro/nano cage structure by femtosecond laser with ethanol assisted.- Superhydrophilic/ underwater superoleophobic microcone arrays by sucrose solution assisted femtosecond laser.- Conclusion and Outlook.