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个人简介

教育背景 西安交通大学,生物医学工程,博士, 2011/9-2016/3 密歇根大学,生物与材料科学,联合培养,2012/9-2014/10 西安交通大学,材料科学与工程,硕士, 2008/9-2011/6 西安交通大学,材料科学与工程,学士, 2004/9-2008/7 科研工作经历 北京航空航天大学,生物与医学工程学院,助理教授, 2019/7至今 北京航空航天大学,生物与医学工程学院,博士后,2016/3-2019/7

研究领域

可注射水凝胶; 再生医学; 医用粘合剂; 药物控制释放

近期论文

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S. Hou et.al, Polysaccharide-peptide cryogels for multidrug-resistant-bacteria infected wound healing and hemostasis, Adv. Healthc. Mater. (2020) S. Hou, X. Niu, L. Li, J. Zhou, Z. Qian, D. Yao, F. Yang, P.X. Ma, Y. Fan, Simultaneous nano- and microscale structural control of injectable hydrogels via the assembly of nanofibrous protein microparticles for tissue regeneration, Biomaterials (2019) 119458. (IF: 10.3) S. Hou, P.X. Ma, Stimuli-Responsive Supramolecular Hydrogels with High Extensibility and Fast Self-Healing via Precoordinated Mussel-Inspired Chemistry, Chem. Mater. 27(22) (2015) 7627. (IF: 10.2) S. Hou, X. Wang, S. Park, X. Jin, P.X. Ma, Rapid Self-Integrating, Injectable Hydrogel for Tissue Complex Regeneration, Adv. Healthc. Mater. 4(10) (2015) 1491-1495. (IF: 6.2) S. Hou, Y. Wang, J. Zhang, D. Wang, S. Ren, X.B. Ren, Evidence for crossover martensite in Ti50Ni45Fe5: An intermediate state between normal martensite and strain glass, Epl-Europhys. Lett. 100(5) (2012). T. Du, X. Niu, S. Hou, Z. Li, P. Li, Y. Fan, Apatite minerals derived from collagen phosphorylation modification induce the hierarchical intrafibrillar mineralization of collagen fibers, J. Biomed. Mater. Res. Part A 0(2019). J. Zhou, D. Yao, Z. Qian, S. Hou, L. Li, A.T.A. Jenkins, Y. Fan, Bacteria-responsive intelligent wound dressing: Simultaneous In situ detection and inhibition of bacterial infection for accelerated wound healing, Biomaterials 161 (2018) 11-23. J. Zhou, S. Hou, L. Li, D. Yao, Y. Liu, A.T.A. Jenkins, Y. Fan, Theranostic Infection-Responsive Coating to In Situ Detect and Prevent Urinary Catheter Blockage, Advanced Materials Interfaces 5(24) (2018) 1801242. Y. Wu, L. Wang, X. Zhao, S. Hou, B. Guo, P.X. Ma, Self-healing supramolecular bioelastomers with shape memory property as a multifunctional platform for biomedical applications via modular assembly, Biomaterials 104 (2016) 18-31. D. Wang, S. Hou, Y. Wang, X. Ding, S. Ren, X. Ren, Y. Wang, Superelasticity of slim hysteresis over a wide temperature range by nanodomains of martensite, Acta Mater. 66 (2014) 349-359. J. Zhang, C. Somsen, T. Simon, X. Ding, S. Hou, S. Ren, X. Ren, G. Eggeler, K. Otsuka, J. Sun, Leaf-like dislocation substructures and the decrease of martensitic start temperatures: A new explanation for functional fatigue during thermally induced martensitic transformations in coarse-grained Ni-rich Ti–Ni shape memory alloys, Acta Mater. 60(5) (2012) 1999-2006. J. Gao, D. Xue, Y. Wang, D. Wang, L. Zhang, H. Wu, S. Guo, H. Bao, C. Zhou, W. Liu, S. Hou, G. Xiao, X. Ren, Microstructure basis for strong piezoelectricity in Pb-free Ba(Zr0.2Ti0.8)O3-(Ba0.7Ca0.3)TiO3 ceramics, App. Phys. Lett. 99(9) (2011) 092901. X. Ren, Y. Wang, Y. Zhou, Z. Zhang, D. Wang, G. Fan, K. Otsuka, T. Suzuki, Y. Ji, J. Zhang, Y. Tian, S. Hou, X. Ding, Strain glass in ferroelastic systems: Premartensitic tweed versus strain glass, Philos. Mag. 90(1-4) (2010) 141-157.

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