Soft Matter Physics
Soft matter exists in every aspect of our daily life and industrial production. From tofu, milk, yogurt and other food, to paint, soap, fabrics and other daily necessities, all are composed of soft materials. Researchers in the branch of soft matter physics are dedicated to the development of the fundamental physics theory of soft matter and the exploration of the industrial application of soft matter materials. Theoretical studies cover protein molecules at the microscale, cells at the meso-scale, and fluids at the macroscale. Industrial applications involve flexible microstructure devices at the microscale, biomedical materials and bio-sensing systems at the mesoscale, and flexible wearable devices at the macroscale.
Research areas include: theory and simulation of polymer and liquid crystal systems, dynamics of cell signaling network and big data of health care, mechanics of single molecules and cells, unconventional energy nucleation regulation and micrometrics, regulation of soft matter structure and properties, ultra-thin nanomaterial functionalization and application, flexible microstructure electrodes and devices, wearable intelligent sensing systems, colloids and interface sensors and automation, interface science of biomedical materials.
马锐
副教授
ruima@xmu.edu.cn
物理楼304
细胞膜与细胞骨架力学
张志森
助理教授
zhangzs@xmu.edu.cn
物理大楼 303
结晶成核;水结冰调控;生物矿化
Guo Wenxi
Associate Professor
wxguo@xmu.edu.cn
His research interests include: 1) Fabrication and construction of 1-D nanomaterias(such as ZnO, TiO2 and CoS) on flexible substrates. 2) Flexible energy conversion devices, such as flexible TCO-free transparent conducting films, fiber and planar-shaped dye/quantum dotsensitized, perovskite solar cells and electrochromic devices. 3) Design and fabrication of hybrid nanosystems for wireless sensing.
Hou Xu
Professor
houx@xmu.edu.cn
Physics Building 312
Bio-inspired and smart multi-scale pore/channel systems, membrane science and technology, microfluidics, interfacial science, physical chemistry, electrochemistry, nano/micro fabrication for energy-saving and biomedical applications.
Huang Qiaoling
Assistant Professor
qlhuang@xmu.edu.cn
Exploring the structure-property relationships of TiO2 based materials. Designing/fabricating functional silkworm silk for biomedical applications such as bioimaging, bone regeneration. Investigating the biophysical aspects of cell adhesion. Protein adsorption
Lin Changxu
Assistant Professor
lincx@xmu.edu.cn
Bld. of Physics and M.E.
1. Chemosensor based on colloidal and interface science; 2. Automation and AI in the laboratory
Lin Youhui
Associate Professor
linyouhui@xmu.edu.cn
Room 312, Physics Building
Synthesis and characterization of functionalized nanomaterials and their applications in artificial enzyme, biosensing, and logic device. Study of molecular recognition, biological functions of disease–related nucleic acids or proteins. Study of the nanomaterials-based biodevice, surface chemistry and nanomedicine.
Wu Jianyang
Associate Professor
jianyang@xmu.edu.cn
Room 358, Physics Building
Xu Jun
Associate Professor
xujun@xmu.edu.cn
Xu Qingchi
Assistant Professor
xuqingchi@xmu.edu.cn
1. Recycle of various solid wastes to produce thermal insulation building materials, such as lightweight aggregates and panel 2. Synthesis of multifunctional nanomaterial for drug delivery and cancer cell killing 3. Semiconductor thin films (Ag, TiO2 and Bi2WO6) for water purification and solar cell applications 4. Heterogeneous Catalysis and supported catalysts
Ye Meidan
Associate Professor
mdye@xmu.edu.cn
Room 358, Physics Building
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