李贵才

发布时间:2018-05-31 浏览次数:5473


 

李贵才,博士,教授/研究员,山东莱芜人。主要研究方向为神经组织工程与智能响应仿生生物材料。江苏省“青蓝工程”优秀青年骨干教师培养对象和中青年学术带头人,南通市226人才工程第二层次培养对象。主持多项国家自然科学基金,江苏省自然科学基金,江苏省高校自然科学基金,南通大学创新人才基金,南通大学教学改革项目等科研项目。并作为骨干成员参与国家重点研发计划(科技部)和国家自然科学基金重点基金等项目。以通讯作者或第一作者等身份在Science Advances,Bioactive Materials,Advanced Functional Materials, Chemical Engineering Journal等期刊共发表SCI论文100余篇,H-index:35,总引用次数达2300余次,单篇引用最高达200余次,并获得南通市第九届自然科学优秀论文一等奖。申请和授权中国发明专利18项,其中完成技术转让5项。担任中国生物材料学会理事、神经修复材料分会副主任委员、组织工程与再生医学分会委员;担任Advanced Materials, Bioactive Materials等多个国际期刊的邀请审稿人;担任Burns & Trauma, Military Medical Research, Nano Materials Science等多个国际学术期刊青年编委。所培养学生就业/深造率100%,主要去向包括医疗器械研发、医院、博士学习等。联系方式:gcli1981@ntu.edu.cn

专业研究领域

1、功能化/智能响应仿生生物材料研究

2、组织工程人工植入器件的研发

3、仿生与生物制造

学术论文

[1] W.C. Guan, Y.Q. Liu, M.Z. Jia, L.L. Wang, H.X. Gao, S.L. Sun, Y.Q. Shang, H.Y. Shen, J. Yang, N.N. Jin, Y.M. Yang, J.H. Shen, A.H. Shi, G.C. Li, Magnetic-topological multistage synergy: Anisotropic ovalbumin scaffolds loaded with magnetically-responsive neural cells for long-distance peripheral nerve regeneration, Bioact Mater 57 (2026) 36-53. (通讯)

[2] L.L. Wu, Y.Q. Liu, H.X. Gao, W.C. Guan, S.L. Sun, H. Liu, X.F. Chu, G.C. Li, In situ non-invasive electrical stimulation by magnetically-actuated piezoelectric Fe3O4/PVDF alignment scaffolds for synergistically promoting long-distance peripheral nerve regeneration, Chem Eng J 509 (2025).(通讯)

[3] Y.Q. Liu, Y.Q. Shang, Z. Wang, H.X. Gao, N.N. Jin, W.H. Zhang, H.Y. Shen, S.L. Sun, D.Z. Wang, Z.W. Wang, X.S. Gu, Y.M. Yang, G.C. Li, From microsphere synthesis to neural tissue regeneration: Unraveling the potentials and progress, Compos Part B-Eng 298 (2025).(通讯)

[4] H.X. Gao, H.Y. Shen, X.R. Zhang, Y.Q. Liu, Y.Q. Shang, S.L. Sun, W.C. Guan, X.S. Gu, Y.M. Yang, G.C. Li, Revolutionizing neural regeneration with smart responsive materials: Current insights and future prospects, Bioact Mater 52 (2025) 393-421.(通讯)

[5] T.T. Zheng, H.X. Gao, Y.Q. Liu, S.L. Sun, W.C. Guan, L.L. Wu, Y.M. Yang, G.C. Li, Development of ovalbumin implants with different spatial configurations for treatment of peripheral nerve injury, Bioact Mater 35 (2024) 401-415.(通讯)

[6] Q. Han, W.C. Guan, S.L. Sun, T.T. Zheng, L.L. Wu, H.X. Gao, Y.Q. Liu, Y.M. Yang, G.C. Li, Anisotropic topological scaffolds synergizing non-invasive wireless magnetic stimulation for accelerating long-distance peripheral nerve regeneration, Chem Eng J 496 (2024).(通讯)

[7] W.C. Guan, H.X. Gao, Y.Q. Liu, S.L. Sun, G.C. Li, Application of magnetism in tissue regeneration: recent progress and future prospects, Regen Biomater 11 (2024).(通讯)

[8] Y.Q. Liu, Y.Q. Shang, M.Z. Jia, H.X. Gao, H.Y. Shen, L.L. Wang, C.S. Xiao, X.H. Liu, J.J. Sun, A.H. Shi, J.H. Shen, H.T. Guan, G.C. Li, Magneto-piezoelectric synergy in anisotropic short-fiber microspheres: A non-invasive platform for accelerated cutaneous nerve regeneration and wound healing, Chem Eng J 542 (2026).(通讯)

[9] D. Liu, W.C. Guan, X.L. Wu, J.X. Gao, G.C. Li, L. Han, Bioinspired Self-Curling Conduit Integrates Topography and Bioelectronics for Functional Peripheral Nerve Regeneration, Adv Funct Mater 36(35) (2026).(通讯)

讲授课程

硕士/博士研究生:仿生与生物制造

本科生:生物材料概论、医学仿生学