师资队伍
高分子材料
胡伟康
个人信息:
姓名:胡伟康
学历:博士研究生
职称:副教授,硕士生导师
Email: huwkang@hubu.edu.cn
社会兼职:中国生物材料学会 会员
中国生物医学工程学会 会员
湖北省药理学会 药理研究与转化专业委员会 委员
Orcid: https://orcid.org/0000-0001-7172-4055
教育及工作经历:
l 副教授,材料科学与工程学院,湖北大学 (2020.11- 现在);湖北省省级人才项目 (2022 – 现在);
l 博士后,生物医学工程,华中科技大学, (2017.7 - 2020.10);
l 博士,生物医学工程,中山大学,(2011.6 - 2016.9);
l 学士,化学基地班(国家理科基础科学研究与教学人才培养基地),武汉大学; (2007.9 - 2011.6)。
近五年发表论文(2019-2024):
[1] You, W., Cai, Z., Xiao, F., Zhao, J., Wang, G., Wang, W., Chen, Z., Hu, W.*, Chen, Y.*, Wang, Z.* 2025. Biomolecular microneedle initiates Fe3O4/MXene heterojunction-mediated nanozyme-like reactions and bacterial ferroptosis to repair diabetic wounds. Advanced Science, 2025, 12(11): 2417314. (Corresponding author, IF=14.3, JCR: Q1, 中科院一区)
[2] Chen, Z., Zhang, L., Yang, Y., Cheng, W., Tu, L., Wang, Z.*, Chen, Y.*, & Hu, W.* 2024. Photothermal Nanozyme-Encapsulating Microneedles for Synergistic Treatment of Infected Wounds. Advanced Functional Materials, 2024, 35(12): 2417415.. (Corresponding author, IF = 18.5, JCR: Q1,中科院一区)
[3] Hu, W., Wang, W., Chen, Z., Chen, Y.*, & Wang, Z.* 2024. Engineered exosomes and composite biomaterials for tissue regeneration. Theranostics, 14(5): 2099-2126. (First author, IF = 12.4, JCR: Q1,中科院一区)
[4] Wang, G., Wang, W., Chen, Z., Hu, T., Tu, L., Wang, X., Hu, W.*, Li, S.*, & Wang, Z.* 2024. Photothermal microneedle patch loaded with antimicrobial peptide/MnO2 hybrid nanoparticles for chronic wound healing. Chemical Engineering Journal, 482: 148938. (Corresponding author, IF = 13.4, JCR: Q1,中科院一区 )
[5] Chen, Z., Hu, T., Wang, R., Huang, B., Tu, L., Wang, G., Li, C., Dong, B.*, Wang, Z.*, & Hu, W.* 2024. Local Delivery of Glabridin by Biomolecular Microneedle to Accelerate Infected Wound Healing. Advanced Healthcare Materials, 13(2): 2302470. (Corresponding author, IF = 10, JCR: Q1,中科院二区,Top期刊)
[6] Huang, B., Xiao, F., Chen, Z., Hu, T., Qiu, R., Wang, W., You, W., Su, X.*, Hu, W.*, & Wang, Z.* 2024. Coaxial electrospun nanofiber accelerates infected wound healing via engineered probiotic biofilm. International Journal of Biological Macromolecules, 279(Pt 1): 135100. (Corresponding author, IF = 7.7, JCR: Q1,中科院二区,Top期刊)
[7] Chen, Z., Guo, Z., Hu, T., Huang, B., Zheng, Q., Du, X., Huang, L.*, & Hu, W.* 2024. Double-layered microneedle patch loaded with bioinspired nano-vaccine for melanoma treatment and wound healing. International Journal of Biological Macromolecules, 262(Pt 1): 129961. (Corresponding author, IF = 7.7, JCR: Q1,中科院二区,Top期刊)
[8] Chen, Z., Zhang, Y., Feng, K., Hu, T., Huang, B., Tang, J., Ai, J., Guo, L.*, Hu, W.*, & Wang, Z.* 2024. Facile fabrication of quaternized chitosan-incorporated biomolecular patches for non-compressive haemostasis and wound healing. Fundamental Research, 4(5): 1243-1253. (Corresponding author, IF = 5.7, JCR: Q1,中科院二区)
[9] Feng, K., Tang, J., Qiu, R., Wang, B.*, Wang, J., & Hu, W.* 2024. Fabrication of a core–shell nanofibrous wound dressing with an antioxidant effect on skin injury. Journal of Materials Chemistry B, 12(9): 2384-2393. (Corresponding author, IF = 6.1, JCR: Q1,中科院三区)
[10] Hu, T. †, Fang, J. †, Shen†, Y., Li, M., Wang, B.*, Xu, Z.* and Hu, W.*. 2024. Advances of naturally derived biomedical polymers in tissue engineering. Frontiers in Chemistry, 12: 1469183.(Corresponding author, IF = 3.8, JCR: Q2,中科院三区)
[11] Wang, Z.†, Hu, W.†, Wang, W.†, Xiao, Y., Chen, Y.*, & Wang, X.* 2023. Antibacterial Electrospun Nanofibrous Materials for Wound Healing. Advanced Fiber Materials, 5(1): 107-129. (First author, IF = 17.2, JCR: Q1,中科院一区)
[12] Li, Y., Zha, Y., Hu, W.*, Chen, J., Liu, S., Zhang, S.*, & Wang, J.* 2023. Monoporous Microsphere as a Dynamically Movable Drug Carrier for Osteoporotic Bone Remodeling. Advanced Healthcare Materials, 12(16): 2201242. (Corresponding author, IF = 10, JCR: Q1,中科院二区)
[13] Hu, W.†, Chen, Z.†, Chen, X., Feng, K., Hu, T., Huang, B., Tang, J., Wang, G., Liu, S., Yang, G.*, & Wang, Z.* 2023. Double-network cellulose-based hybrid hydrogels with favourable biocompatibility and antibacterial activity for wound healing. Carbohydrate Polymers, 319: 121193. (First author, IF = 10.7, JCR: Q1,中科院一区)
[14] Wang, Z.†, Hu, W.†, You, W.†, Huang, G., Tian, W., Huselstein, C., Wu, C.-L., Xiao, Y., Chen, Y.*, & Wang, X.* 2021. Antibacterial and angiogenic wound dressings for chronic persistent skin injury. Chemical Engineering Journal, 404: 126525. (First author, IF = 13.4, JCR: Q1,中科院一区)
[15] Wang, Z.†, Hu, W.†, Du, Y., Xiao, Y., Wang, X.*, Zhang, S., Wang, J.*, & Mao, C.* 2020. Green Gas-Mediated Cross-Linking Generates Biomolecular Hydrogels with Enhanced Strength and Excellent Hemostasis for Wound Healing. ACS Applied Materials & Interfaces, 12(12): 13622-13633. (First author, IF = 8.5, JCR: Q1,中科院二区)
[16] Hu, W.†, Wang, Z.†, Zha, Y., Gu, X., You, W., Xiao, Y., Wang, X.*, Zhang, S.*, & Wang, J.* 2020. High Flexible and Broad Antibacterial Nanodressing Induces Complete Skin Repair with Angiogenic and Follicle Regeneration. Advanced Healthcare Materials, 9(23): 2000035. (First author, IF = 10, JCR: Q1,中科院二区,Top期刊)
[17] Hu, W.†, Wang, Z.†, Xu, Y., Wang, X., Xiao, Y.*, Zhang, S., & Wang, J.* 2019. Remodeling of inherent antimicrobial nanofiber dressings with melamine-modified fibroin into neoskin. Journal of Materials Chemistry B, 7(21): 3412-3423. (First author, IF = 6.1, JCR: Q1,中科院三区)
[18] Hu, W.†, Wang, Z.†, Xiao, Y., Zhang, S., & Wang, J.* 2019. Advances in crosslinking strategies of biomedical hydrogels. Biomaterials Science, 7(3): 843-855. (First author, IF = 6.1, JCR: Q1, 中科院三区,ESI高被引论文 > 600 次引用)
主持或参加科研项目(课题):
纵向课题:
[1] 湖北省科学技术厅, 面上项目, 2023AFB880, 制备“芯-壳”取向结构的纤维敷料及其在皮损修复中的 应用, 2023-11 至 2025-09, 5万元, 在研, 主持
[2] 泌尿系统疾病湖北省重点实验室开放基金, 一般项目, MNXTJB202404, 超声压电复合水凝胶促进输尿管无瘢痕修复的实验研究, 2025-01 至 2026-12, 5万元, 在研, 主持
[3] 国家自然科学基金-青年科学基金项目,31800805,基于活性因子时序性释放的双层皮肤支架应用于糖尿病足修复,2019/01-2021/12,23万元;主持,已结题;
[4] 湖北大学校青年基金项目,202011303000004,新型多功能纳米复合纤维在糖尿病溃疡治疗中的研究,2020/12-2021/12,2万,主持,已结题;
[5] 国家自然科学基金-重大研究计划,91939111,基于结构仿生和修复微环境调控的小口径人工血管构建及评价,2020/01-2021/12,40万;课题骨干,已结题;
[6] 国家自然科学基金-面上项目,31870960,可3D打印能量生物材料构建及用于骨缺损再生研究,2019/01-2022/12,63万;课题骨干,已结题;
[7] 国家自然科学基金-青年科学基金项目,81801850,多级仿生梯度微球支架促进关节软骨-骨综合缺损修复研究,2019/01-2021/12,21万;课题骨干,已结题;
[8] 湖北省重点研发计划,2020BCB056,基于3D纺丝打印和生物活体材料介导的小口径人工血管开发与应用,2020/08-2022/07,总经费60万;课题骨干,已结题。
横向课题:
[1] 深圳市可持续发展专项-新型抗菌敷料研发与应用 2022-2025,核心骨干
奖励与突出业绩:
l 湖北省博士后创新创业大赛 优胜奖;创新创业优秀博士后 (颁发单位:湖北省人力资源和社会保障厅,2023年9月)
研究兴趣:
团队致力于生物材料制备及其在生物医学领域(生物医学工程)的跨学科创新研究,重点聚焦两大关键方向:
[1] 智能化生物3D打印系统:通过人工智能技术,与3D打印技术深度融合,设计和增强组织工程用生物材料的性能,从而实现定制化组织修复支架的精准制造。
[2] 皮肤及软组织修复:设计并合成多功能光电、光热纳米酶/COF/MOF材料及其在皮肤、软骨、尿道组织工程领域应用;探索材料与细胞之间的交互、调控机制。