
D.Sc. Wendong Liu (刘文东)
D.Sc. Wendong Liu
D.Sc. Wendong Liu
Wendong Liu was born in 1987, Jiutai District, Changchun City, Jilin Province, China. He received his B.S. degree in 2012 in Chemistry and Biotechnology,College of life sciences, Jilin University. And then he starts to do his Ph.D. thesis under the supervision of Prof. Bai Yang at Jilin University. He defended his Ph.D. thesis about the fabrication of ordered micro/nanostructures for controllable adhesion in June 2017. Then he went to Max-Planck-Institute for Polymer Research in Mainz as a postdoc under the supervision of Prof. Hans-Jürgen Butt and Dr. Michael Kappl.
His research interests relate to the fabrication of patterned surfaces with multiple functions; exploring the effect of the 2D, 3D patterned surfaces on cell adhesion and other behaviors; design and preparation of visual biosensors; preparing suprawetting and anisotropic wetting surfaces for liquid delivery. Up to date, he has published 35 research articles (including 10 first-author articles, H index (Publons): 14) and contributed 3 chapters for scientific books.
ORCID: https://orcid.org/0000-0001-7297-8591
Publons: https://publons.com/a/1503056 (Researcher ID: K-9016-2015)

Honors & Awards
2013 Graduate Scholarship of Jilin University (First Class Honours);
Outstanding Graduate student of Jilin University.
2014 Graduate Scholarship of Jilin University (Second Class Honours);
Outstanding Graduate student of Jilin University.
The 28th Graduate "Elite Cup" Academic Achievements Grand Prix of Jilin University (the second prize).
2015 Graduate Scholarship of Jilin University (Second Class Honours);
The 29th Graduate "Elite Cup" Academic Achievements Grand Prix of Jilin University (the second prize)
2016 Graduate Scholarship of Jilin University (Second Class Honours);
The 29th Graduate "Elite Cup" Academic Achievements Grand Prix of Jilin University (the second prize);
National Academic Awards for Ph.D. Students.
Research Interests
Patterned surfaces with multiple functions
2D, 3D patterned surfaces for cell adhesion
Design and preparation of visual biosensors
Suprawetting and anisotropic wetting surfaces based on ordered micro- and nanostructures
Fabrication of supraparticles on super liquid repellent surfaces
Education
2008 - 2012
Jilin University, China
B.S. in Biology and Chemistry
2012 - 2017
Jilin University
PhD. student in polymer chemistry and physics
(Prof. Bai Yang)
2017.11 to 2021.07
Max-Planck-Institute for Polymer Research
Postdoctoral
(Prof. Hans-Jürgen Butt, Dr. Michael Kappl)
2019.03 to 2021.07
Max-Planck-Center for Complex Fluid Dynamics
Collaborators
Prof. Dr. Bai Yang (China)
byangchem@jlu.edu.cn
Research interest:
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Polymeric carbon nanodots: syntheses, nanostructure and Properties
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Polymeric nano-hybridization and photo-electronic materials and devices via aqueous approaches
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High performance polymeric hybrid optical materials
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Ordered fabrication of polymeric microstructures with multi-scale and photonic responsive materials.
Prof. Dr. Yunfeng Li (China)
yflichem@jlu.edu.cn
Research interests are focused on nonequilibrium self-assembly (NSA) of polymeric colloids (nanoparticles) and exploration of biomaterials based on hydrogels. In particular the research in our group can be divided into the following areas: 1. Nonequilibrium self-assembly of polymeric colloids (nanoparticles). 2. Dynamic polymeric colloidal hydrogels. 3. Organ-on-a-chip and 3D bioprinting.
Prof. Dr. Hans-Jürgen Butt (Germany)
butt@mpip-mainz.mpg.de
Research interest:
Hans-Jürgen Butt studies the structure and dynamics of interfaces. The aim is to better understand the relationship between structural changes, dynamics, and the driving forces. Major topics are interfacial forces and wetting, in particular wetting of superamphiphobic surfaces. His group investigates liquids that are internally structured at different length scales, such as polymer melts, solutions, dispersions, or emulsions. The methods used include scanning probe techniques, confocal microscopy, focused ion beam, microrheology, light and X-ray scattering. To expand the range of length and time scales accessible, new methods are continuously developed. Our goal is to solve fundamental questions, with the perspective of future applications.
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Wetting and super liquid-repellency
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Structure and dynamics at liquid interfaces
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Surface forces
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Scanning probe microscopies
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X-ray analysis of interfaces
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Polymer and water in confined space
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Colloids and granular matter
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Photoresponsive materials
Dr. Michael Kappl (Germany)
kappl@mpip-mainz.mpg.de
Research interest:
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Surface Forces
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Methods