superwetting surfaces

smart matierals

2011/09-2014/12:   South China University of Technology,   Biomedical Engineering (biofunctional materials), PhD

2015/05-now: Shenzhen Institutes of Advanced Technology, CAS

   

（1） Ultrafast and On-Demand Oil/Water Separation Membrane System Based on Conducting Polymer Nanotip Arrays, Nano Letters, 2020
（2） A Universal Strategy: Rational Construction of Noble Metal Nanoparticle-Shell/Conducting Polymer Nanofiber-Core Electrodes with Enhanced Electrochemical Performances, Nanotechnology, 2020
（3） Polymeric Nano-Blue-Energy Generator Based on Anion-Selective Ionomers with 3D Pores and pH-Driving Gating, Advanced Energy Materials, 2020
（4） Spider Silk-Inspired Universal Strategy: Directional Patching of One-Dimensional Nanomaterial-Based Flexible Transparent Electrodes for Smart Flexible Electronics, Chemical Engineering Journal, 2020
（5） Green Full Polymer Flexible Transparent Electrodes Showing Versatile Switching Behaviors Based on either Counterion Transport or Nanoarea Crystallization, Journal of Materials Chemistry A, 2019
（6） Conducting Photopolymers on Orthopeadic Implants Having a Switch of Priority between Promoting Osteogenic and Antibacterial Activity, Materials Horizons, 2018
（7） Directing Stem Cell Differentiation via Electrochemical Reversible Switching between Nanotubes and Nanotips of Polypyrrole Array, ACS Nano, 2017
（8） Small Leucine-Rich Proteoglycans (SLRPs): Characteristics and Function in the Intervertebral Disc, Journal of Tissue Engineering and Regenerative Medicine, 2017
（9） Electrically Reversible Redox-Switchable Polydopamine Films for Regulating Cell Behavior, Electrochimica Acta, 2017
（10） 3D Porous Hydrogel/Conducting Polymer Heterogeneous Membranes with Electro-/pH-Modulated Ionic Rectification, Advanced Materials, 2017
（11） Surface Wettability Switched Cell Adhesion and Detachment on Conducting Polymer Nanoarray, Advanced Materials Interfaces, 2016
（12） Polydopamine-Assisted Electrochemical Fabrication of Polypyrrole Nanofibers on Bone Implants to Improve Bioactivity, Macromolecular Materials and Engineering, 2016
（13） Chondroitin Sulphate-Guided Construction of Polypyrrole Nanoarchitectures, Materials Science and Engineering C, 2015
（14） Reversibly Controlling Preferential Protein Adsorption on Bone Implants by Using an Applied Weak Potential as a Switch, Angewandte Chemie-International Edition, 2014
（15） Tuning Nano-Architectures and Improving Bioactivity of Conducting Polypyrrole Coating on Bone Implants by Incorporating Bone-Borne Small Molecules, Journal of Materials Chemistry B, 2014
（16） Surface-Dependent Self-Assembly of Conducting Polypyrrole Nanotube Arrays in Template-Free Electrochemical Polymerization, ACS Applied Materials & Interfaces, 2014
（17） Conducting Polypyrrole Nanotube Arrays as an Implant Surface: Fabricated on Biomedical Titanium with Fine-Tunability by Means of Template-Free Electrochemical Polymerization, ChemPlusChem, 2014
（18） Taurine-Induced Fabrication of Nano-Architectured Conducting Polypyrrole on Biomedical Titanium, Macromolecular Rapid Communications, 2014
（19） Nanostructured Conducting Polymers as Intelligent Implant Surface: Fabricated on Biomedical Titanium with a Potential-Induced Reversible Switch in Wettability, ChemPhysChem, 2013
（20） Potential-Induced Reversible Switching in The Tubular Structure of Conducting Polypyrrole Nanotube Arrays, RSC Advances, 2013
（21） Nanostructured PPy Coating on Titanium Fabricated via Template-Free Electrochemical Polymerization in PBS, Surface and Coatings Technology, 2013