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尤仁传,男,武汉纺织大学副教授/硕士生导师。先后获王善元全国纺织学科优秀博士论文、“纺织之光”奖教金等,入选湖北省“楚天学者”人才计划。主要研究方向为丝蛋白及其生物材料、天然纤维的解构及其功能化应用、功能性纺织材料等,主持国家自然科学基金、湖北省自然科学基金等、湖北省教育厅重点项目、企业委托项目等多项科研项目,已发表SCI学术论文30余篇,申请和授权国家发明专利20余项,指导湖北省大学生创新创业训练计划项目2项,全国高等学校非织造材料与应用创新创意论文大赛二等奖1项。现为中国纺织工程学会和中国生物材料学会会员。
研究方向Research Directions
纺织功能材料与生物医用材料,功能性纤维材料,丝素蛋白
2. 机电结构优化与控制 研究内容:在对机电结构进行分析和优化的基础上,运用控制理论进行结构参数的调整,使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容:以仿生结构为研究对象,运用连续体结构拓扑优化设计理论和方法,对多相仿生结构(机构)材料进行2. 机电结构优化与控制 研究内容:在对机电结构进行分析和优化的基础上,运用控制理论进行结构参数的调整,使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容:以仿生结构为研究对象,运用连续体结构拓扑优化设计理论和方法,对多相仿生结构(机构)材料进行整体布局设计。 整体布局设计。
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纺织科学与工程学院
硕士研究生
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1
(082100)纺织科学与工程
2
2021
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科研项目
1、丝状伪足结构转变介导微纳米纤维调控细胞行为及其作用机制的研究,国家自然科学基金项目青年基金,项目负责人;2、丝素蛋白支架的聚集态结构调控及其对降解行为和脊髓再生的影响,湖北省自然科学基金面上项目,项目负责人;3、柞蚕丝素蛋白生物材料的制备、结构及其性能研究,湖北省自然科学基金青年项目,项目负责人;4、蚕丝丝素蛋白神经导管定向微纳结构的调控及其性能研究,湖北省教育厅重点项目,项目负责人;5、废弃蚕丝提取微纳米纤维技术的研发及其产业化,企业委托项目,项目负责人;
研究成果
近年来的主要论文[29] Liang Li, Hui Yang, Xiufang Li, Shuqin Yan, Anchang Xu, RenchuanYou*, Qiang Zhang*. Natural silk nanofibrils as reinforcements for the preparationof chitosan-based bionanocomposites. Carbohydrate Polymers 253 (2021) 117214.[28] Renchuan You#,Qiang Zhang#, Xiufang Li, Shuqin Yan, Zuwei Luo, Jing Qu, MingzhongLi*. Multichannel Bioactive Silk Nanofiber Conduits Direct and Enhance AxonalRegeneration after Spinal Cord Injury. ACS Biomaterials-Science &Engineering 2020, 6, 4677−4686.[27] Xiufang Li,Qunmei Fan, Qiang Zhang, Shuqin Yan, RenchuanYou*. Freezing-inducedsilk I crystallization of silk fibroin. CrystEngComm, 2020, 22: 3884-3890.[26] Xiufang Li,Qiang Zhang, Shuqin Yan, Mingzhong Li, RenchuanYou*. Topographic cuesreveal filopodia-mediated cell locomotion in 3D microenvironment.Biointerphases, 2020, 15: 031001.[25] Jinsheng Hua,Haining You, Xiufang Li, Renchuan You*, Likun Ma*. Cu(II) ionloading in silk fibroin scaffolds with silk I structure. International Journal ofBiological Macromolecules, 2020, 158: 275-281[24] Yupin Guan,Haining You, Junyi Cai, Qiang Zhang, Shuqin Yan, Renchuan You*. Physicallycrosslinked silk fibroin/hyaluronic acid scaffolds. Carbohydrate Polymers,2020, 239: 116232.[23] Qiusheng Wang,Shuqin Yan, Guocong Han, Xiufang Li, RenchuanYou*, Qiang Zhang*, Mingzhong Li,David L. Kaplan. Facile production of natural silk nanofibers for electronicdevice applications. Composites Science and Technology, 2020, 187: 107950.[22] Xiuang Li, Qiang Zhang, Zuwei Luo, Shuqin Yan, Renchuan You*. Biofunctionalizedsilk fibroin nanofibers for directional and long neurite outgrowth.Biointerphases, 2019, 14(6): 061001.[21] Junyi Cai, Qiusheng Wang, Xiuang Li, Yupin Guan, Liyan He, Shuqin Yan, Renchuan You*,Qiang Zhang*. Water-stable natural silk nanofibril composite films forelectrical devices. Materials Today Communications, 2020, 22: 100776.[20] XiuangLi, Luping Wang, Liang, Zuwei Luo, Shuqin Yan, Qiang Zhang*, Renchuan You*. Water-stable silkfibroin nerve conduits with tunable degradation prepared by a mildfreezing-induced assembly. Polymer Degradation and Stability, 2019, 164: 61-68.[19] Yanfei Feng,Xiufang Li, Qiang Zhang, Shuqin Yan, Yin Guo, Mingzhong Li, Renchuan You*. Mechanicallyrobust and flexible silk protein/polysaccharide composite sponges for wounddressing. Carbohydrate Polymers, 2019, 216: 17-24.[18] Yanfei Feng, Xiufang Li, Qiang Zhang, Dezhan Ye,Mingzhong Li, Renchuan You*, Weilin Xu*. Fabrication ofporous silk fibroin/cellulose nanofibril sponges with hierarchical structureusing a lithium bromide solvent system. Cellulose, 2019, 26(2): 1013-1023.[17] LupingWang, Zuwei Luo, Qiang Zhang, Yupin Guan, Junyi Cai, Renchuan You*,Xiufang Li*. Effect of degumming methods ondegradation behavior of silk fibroin biomaterials. Fibersand Polymers, 2019, 20: 45–50.[16] Shuqin Yan, Qingqing Yang, GuocongHan, Qiusheng Wang, Xiufang Li, Lu Wang, Zuwei Luo, Renchuan You*, Qiang Zhang*. Facile fabrication ofelectroconductive natural silk composites by microscale manipulation. NewJournal of Chemistry, 2019, 43(6): 2559-2566.[15] Qiang Zhang, Guocong Han, Chen Lu,Qiusheng Wang, Xiufang Li, Zuwei Luo, RenchuanYou*, Shuqin Yan*.FacilePreparation of Mechanical Reinforced and Biocompatible Silk Gels. Fibers andPolymers, 2019, 20(4): 675–682.[14] Xiufang Li, Huijie Zhang, Lei He, ZhenChen, Ziqi Tan, Renchuan You*, Dong Wang*. Flexible nanofibers-reinforced silkfibroin films plasticized by glycerol. Composites Part B: Engineering, 2018, 152 :305-310.[13] Li, Xiufang, Shuqin Yan, Jing Qu, Mingzhong Li,Dezhan Ye, Renchuan You*, Qiang Zhang*, Dong Wang*. Softfreezing-induced self-assembly of silk fibroin for tunable gelation.International Journal of Biological Macromolecules, 2018, 117: 691–695. [12] Xiuang Li, Jie Zhang, Yanfei Feng, Shuqin Yan, QiangZhang, Renchuan You*. Tuning thestructure and performance of silk biomaterials by combining mulberry andnon-mulberry silk fibroin. Polymer Degradation and Stability, 2018, 147:57-63.[11] Yanfei Feng,Xiufang Li, Mingzhong Li, Dezhan Ye, Qiang Zhang, Renchuan You*, Weilin Xu. Facile preparation of biocompatible silkfibroin/cellulose nanocomposite films with high mechanical performance. ACSSustainable Chemistry & Engineering, 2017, 5(7): 6227–6236.[10] Yuhang Guo, XiufangLi, Qiang Zhang, Shuqin Yan, RenchuanYou*. Dissolution andregeneration of non-mulberry Eriogyna Pyretorum silk fibroin. Materials Research Express, 2017,4(10): 105404.[9] Renchuan You, Jie Zhang, Shaojin Gu,Yingshan Zhou, Dezhan Ye, Weilin Xu. Regenerated egg white/silk fibroincomposite films for biomedical applications. Materials Science and Engineering: C, 2017, 79:430-435.[8] Xiufang Li, Qiang Zhang, Dezhan Ye, Jie Zhang, Yuhang Guo, RenchuanYou*,Mingzhong Li, Jing Qu. Fabrication and characterization of electrospunPCL/Antheraea pernyi silk fibroin nanofibrous scaffolds. Polymer Engineering & Science, 2017, 57(2): 206–213. [7] Xiufang Li, Mingzhong Li, Qiang Zhang, Shuqin Yan, RenchuanYou*.Aqueous-based electrospinning of regenerated Antheraea pernyi silk fibroin. Fibers and Polymers, 2016, 17(9): 1421-1427.[6] Xiufang Li, QiangZhang, Yanfei Feng, Shuqin Yan, Jing Qu, RenchuanYou*. Preparation of Antheraea pernyi Silk Fibroin Microparticles through aFacile Electrospinning Method. Advances in Materials Science and Engineering, Article ID 8205984, 2016.[5]Renchuan You, Yamei Xu, Yi Liu, Xiufang Li, Mingzhong Li. Comparison of the in vitro and in vivodegradations of silk fibroin scaffolds from mulberry and nonmulberry silkworms.Biomedical Materials, 2015, 10(1):015003.[4] Renchuan You, Xiufang Li, Zuwei Luo, Jing Qu, MingzhongLi. Directional cell elongation throughfilopodia-steered lamellipodial extension on patterned silk fibroin films.Biointerphases, 2015, 10(1): 011005.[3] Renchuan You, Xiufang Li, Yu Liu, Guiyang Liu, ShenzhouLu, Mingzhong Li. Response offilopodia and lamellipodia to surface topography on micropatterned silk fibroinfilms. Journal ofBiomedical Materials Research Part A,2014, 102(12): 4206-4212.[2]Renchuan You, Yamei Xu, Guiyang Liu, Yu Liu, Xiufang Li, Mingzhong Li.Regulating the degradation rate of silk fibroin films through changing thegenipin crosslinking degree. Polymer Degradation and Stability,2014, 109: 226-232. [1] Renchuan You, Xiufang Li, Yamei Xu, Liu Yu, Shenzhou Lu, Mingzhong Li. The MicropillarStructure on Silk Fibroin Film Influence Intercellular Connection Mediated byNanotubular Structures. Materials,2014, 7(6): 4628-4639.发明专利[1] 尤仁传,冯艳飞,徐卫林,张捷,王露萍,张强,李秀芳,一种纳米纤维素增强丝素蛋白复合材料及其制备方法,ZL201610948121.8,2019年授权;[2] 尤仁传,王露萍,李秀芳,徐安长,张强,闫书芹,一种含丝素蛋白纳米纤维定向引导功能的神经导管及其制备方法,ZL2017112876477,2020年授权;[3] 尤仁传,李秀芳,张强,闫书芹,一种快速凝胶化丝素蛋白溶液及其制备方法,ZL2016110642920,2020年授权;[4] 尤仁传,李秀芳,张强,闫书芹,一种丝素蛋白纳米颗粒及其制备方法和应用, ZL2016108575059,2020年授权;[5] 尤仁传、李秀芳、张强、闫书芹,一种丝素蛋白纳米颗粒及其制备方法, ZL 2018107946347,2021年授权.
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