University of Groningen
Light switchable surface topographies
Liu, Ling
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Publication date: 2018
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Liu, L. (2018). Light switchable surface topographies: Modelling and design of photo responsive topographical changes of liquid crystal polymer films. Rijksuniversiteit Groningen.
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Curriculum Vitae 175
Curriculum Vitae
Ling Liu (刘 凌) was born on March 29th 1988 at Changsha (长沙), China. In 2006, he attended Tongji University (Shanghai, China) (同济大学,中国上海) for his bachelor study, in the Department of Aerospace Engineer-ing and Applied Mechanics. After he graduated in 2010, he kept pursuing the Master of Engineering degree in the same department, supervised by Prof. Zhengming Huang, working on several projects about micromechanical mod-eling of fiber-reinforced composite materials. During the master study, he published several first scientific papers in his academic life and started to accumulate interest in conducting research and obtaining more academic train-ing.
In September of 2013, after finishing his Master degree with cum laude, he traveled the Netherlands and joined the Micromechanics of Materials group at the Zernike
In-stitute for Advanced Materials, the University of Groningen, to pursue his target: a PhD degree. He worked together with his promotor Prof. dr. ir. Patrick R. Onck on numerical simulations of light responsive topographical switching of liquid crystal polymers. He collaborated with experimental experts, Prof. Dirk J. Broer and Dr. Danqing Liu from the Technology University of Eindhoven in his PhD project. The four-years PhD project is financially supported by the Dutch Polymer Institute (DPI) and Netherlands Organisation for Scientific Research (NWO), the Netherlands.
From November of 2017, he joined Philips Personal Care at Drachten, the Nether-lands, as a function development engineer.
176 Curriculum Vitae The publications related to the PhD work is listed below (* equal contribution).
A:Peer-reviewed journal articles
1. D. Liu*, L. Liu*, P. R. Onck, and D. J. Broer (2015). Reverse switching of surface roughness in a self-organized polydomain liquid crystal coating. Proceedings of the
National Academy of Sciences 112(13), 3880-3885.
2. L. Liu and P. R. Onck. Topographical Changes in Photo-responsive Liquid Crystal films: A Computational Analysis. to appear in Soft Matter 14(12), 2411-2428. 3. L. Liu and P. R. Onck (2017). Enhanced Deformation of Azobenzene-modied Liquid Crystal Polymers under Dual Wavelength Exposure: A Photophysical Model.
Physical Review Letters 119(5), 057801.
4. L. Liu, D. J. Broer, and P. R. Onck. Travelling Waves on Photo-Switchable Polymer Films by Rotating Polarized Light. submitted.
5. L. Liu and P. R. Onck. Topographical Modulations via Tunable Photo-polymerization Induced Diffusion of Azobenzene-doped Liquid Crystal Polymer Films. Journal of
the Mechanics and Physics of Solids. submitted.
B:Book chapter
6. L. Liu and P. R. Onck (2017). Computational Modelling of Light-triggered Topog-raphy Changes of Azobenzene-modified Liquid Crystal Polymer Coatings. In: Re-sponsive Polymer Surfaces-Dynamics in Surface Topographies and
Prop-erties. Ed. by D. Liu and D. J. Broer. Wiley. 85-121.
The publication non-related to the PhD work is listed below.
7. J. Ye*, L. Liu*, J. Oakdale, T. Voisin, J. D. Roehling, W. L. Smith, M. Hernandez, M. M. Biener, Y. M. Wang, P. R. Onck, J. Biener. Ultra-Stiff 3D Architected Carbon with Strutted Tube-in-Tube Structure. submitted.
