个人简历

Employment
2013.09- now Group Leader II (研究小组主任II类),Center for Biomedical Engineering and Regenerative Medicine Frontier Institute of Science and Technology (FIST),Xi’an Jiaotong University (XJTU), China
2011.12- 2013.08 Group Leader III (研究小组主任III类),Center for Biomedical Engineering and Regenerative Medicine Frontier Institute of Science and Technology (FIST),Xi’an Jiaotong University (XJTU), China
Education
2008.09-2011.12 Ph. D. in Polymer Chemistry and Physics, KTH-Royal Institute of Technology, Sweden
2007.09-2008.09 Ph. D. in Polymer Chemistry and Physics,Dalian University of Technology, China
2004.09-2007.07 M.S. in Polymer Chemistry and Physics, Henan University, China

近期论文

1. Guo B.L., Glavas L., Albertsson A-C. Biodegradable and Electrically Conducting Polymers for Biomedical Applications, Progress in Polymer Science 2013, 38:1263-1286.
2. Wang L., Wu Y, Guo B.L.*, Ma P.X.*. Nanofiber Yarn/Hydrogel Core-Shell Scaffolds Mimicking Native Skeletal Muscle Tissue for Guiding 3D Myoblast Alignment, Elongation and Differentiation, ACS Nano, 2015, DOI: 10.1021/acsnano.5b03644
3. Xie M.H., Wang L., Guo B.L.*, Wang Z., Chen Y.E., Ma P.X.*. Ductile electroactive biodegradable hyperbranched polylactide copolymers enhancing myoblast differentiation, Biomaterials, 2015, 71,158-167
4. Guo B.L., Finne-Wistrand A., Albertsson A-C. Degradable and electroactive hydrogels with tunable electrical conductivity and swelling behavior. Chemistry of Materials 2011, 23(5):1254-1262.
5. Guo B.L., Finne-Wistrand A., Albertsson A-C. Simple route to size-tunable degradable and electroactive nanoparticles from the self-assembly of conducting coil-rod-coil triblock copolymers. Chemistry of Materials 2011, 23(17):4045-4055.
6. Xie M.H., Wang L., Ge J., Guo B.L.*, Ma P.X.*. Strong Electroactive Biodegradable Shape Memory Polymer Networks Based on Star-Shaped Polylactide and Aniline Trimer for Bone Tissue Engineering, ACS Applied Materials & Interfaces, 2015, 7(12)：6772-6781
7. Wu Y., Guo B.L.*, Ma P.X.*. Injectable Electroactive Hydrogels Formed via Host-Guest Interactions, ACS Macro Letters 2014, 3: 1145-1150.
8. Zhao J., Zhao X., Guo B.L.*, Ma P.X.*. Multi-functional Interpenetrating Polymer Network Hydrogels Based on Methacrylated Alginate for Delivery of Small Molecule Drugs and Sustained Protein Release, Biomacromolecules 2014, 15:3246-3252.
9. Li L, Ge J., Wang L., Guo B.L.*, Ma P.X.*. Electroactive nanofibrous biomimetic scaffolds by thermal induced phase separation, Journal of Materials Chemistry B, 2014, 2:6119-6130
10. Wu Y., Wang L., Guo B.L.*, Ma P.X.*. Injectable biodegradable hydrogels and microgels based on methacrylated poly(ethylene glycol)-co-poly(glycerol sebacate) multi-block copolymers: synthesis, characterization, and cell encapsulation, Journal of Materials Chemistry B, 2014, 2, 3674-3685
11. Li L., Ge J., Guo B.L.*, Ma P.X.*. In situ forming biodegradable electroactive hydrogels, Polymer Chemistry 2014, 5:2880–2890
12. Guo B.L., Sun Y., Finne-Wistrand A., Mustafa K., Albertsson A-C. Electroactive tubular porous scaffolds with degradability and non-cytotoxicity for neural tissue regeneration. Acta Biomaterialia 2012, 8(1):144-153.
13. Guo B.L., Finne-Wistrand A., Albertsson A-C. Electroactive hydrophilic polylactide surface by covalent modification with tetraaniline. Macromolecules, 2012 45(2):652-659.
14. Guo B.L., Finne-Wistrand A., Albertsson A-C. Enhanced electrical conductivity by macromolecular architecture: Hyperbranched electroactive and degradable block copolymers based on Poly(epsilon-caprolactone) and aniline pentamer. Macromolecules 2010, 43(10):4472-4480.
15. Guo B.L., Finne-Wistrand A., Albertsson A-C. Universal two-step approach to degradable and electroactive block copolymers and networks from combined ring-opening polymerization and post-functionalization via oxidative coupling reactions. Macromolecules 2011, 44(13):5227-5236.