10篇代表作学术论文: (*为通讯作者) 1. Y Lv, F Cai, X Zhao, X Zhu, F Wei, Y Zheng, X Shi*, J Yang*, Bioinspired microstructured Janus bioadhesive for the prevention of abdominal and intrauterine adhesions. Advanced Functional Materials 2024, 2314402. 2. X Zhao, Y Zhuang, Y Cao, F Cai, Y Lv, Y Zheng, J Yang*, X Shi*, Electrospun biomimetic periosteum capable of controlled release of multiple agents for programmed promoting bone regeneration, Advanced Healthcare Materials 2024, 202303134. 3. J Yang, Y He, Z Li, X Yang, Y Gao, M Chen, Y Zheng, S Mao*, X Shi*, Intelligent wound dressing for simultaneous in situ detection and elimination of pathogenic bacteria. Acta Biomaterialia 2024, 174, 177–190. 4. Y Lv, F Cai, Y He, L Li, Y Huang, J Yang*, Y Zheng, X Shi*, Multi-crosslinked hydrogels with strong wet adhesion, self-healing, antibacterial property, reactive oxygen species scavenging activity, and on-demand removability for seawater-immersed wound healing, Acta Biomaterialia 2023, 159, 95−110. 5. Z Fang, Y Lv, H Zhang, Y He, H Gao, C Chen, D Wang, P Chen, S Tang, J Li, Z Qiu, X Shi, L Chen*, J Yang*, X Chen*, A multifunctional hydrogel loaded with two nanoagents improves the pathological microenvironment associated with radiation combined with skin wounds, Acta Biomaterialia 2023, 159, 111−127. 6. W Wang, J Dai, Y Huang, X Li, J Yang*, Y Zheng, X Shi*, Extracellular matrix mimicking dynamic interpenetrating network hydrogel for skin tissue engineering, Chemical Engineering Journal 2023, 457, 141362. 7. C He, B Yu, Y Lv, Y Huang, J Guo, L Li, M Chen, Y Zheng, M Liu, S Guo*, X Shi, J Yang*, Biomimetic Asymmetric Composite Dressing by Electrospinning with Aligned Nanofibrous and Micropatterned Structures for Severe Burn Wound Healing, ACS Applied Materials & Interfaces 2022, 14, 32799–32812. 8. J Yang, Y Huang, J Dai, X Shi, Y Zheng*, A sandwich structure composite wound dressing with firmly anchored silver nanoparticles for severe burn wound healing in a porcine model, Regenerative Biomaterials 2021, 8, rbab037. 9. J Yang, Y Yang, N Kawazoe, G Chen*, Encapsulation of individual living cells with enzyme responsive polymer nanoshell, Biomaterials 2019, 197, 317–326. 10. J Yang, J Li, X Li, X Wang, Y Yang, N Kawazoe, G Chen*, Nanoencapsulation of individual mammalian cells with cytoprotective polymer shell, Biomaterials 2017, 133, 253−262.
授权发明专利: 1. 一种用于组织工程皮肤构建的仿生水凝胶支架及其制备方法, 杨建民, 王伟彬, 石贤爱,何思梦, 专利号:ZL 202111655199.8, 授权时间: 2023-09-29. 2. 一种仿生非对称海绵敷料及其制备方法, 石贤爱, 赵星凯, 杨建民, 贺晨卉, 专利号:ZL 202210783024.3, 授权时间: 2023-07-18. 3. 一种复合水凝胶伤口敷料及其制备方法, 郑允权, 冯晓莲, 石贤爱, 杨建民, 专利号: ZL 202010403896.3, 授权时间: 2022-06-24. 4. 一种可注射抗菌互穿双网络水凝胶及其制备方法和应用, 石贤爱, 张梓博, 杨建民, 邹志锋, 李兢思, 黄钰锋, 专利号:ZL 202011314923.6, 授权时间: 2021-12-17. 5. 一种单个哺乳动物细胞纳米封装方法及所得封装细胞, 杨建民, 石贤爱, 孙继敏, 任亚凤, 郑允权, 专利号: ZL 201911328017.9, 授权时间: 2021-11-02. 6. 一种具有缓释作用抗菌敷料的制备方法及其产品, 杨建民, 石贤爱, 胡圣学. 专利号: ZL 201810611217.4, 授权时间: 2021-04-27. 7. 細胞の内包化方法および内包化細胞,陳国平, 楊建民, 川添直輝, JP6786120, 授权时间: 2020-10-30. (日本) 重要学术会议口头报告: 1. Electrospinning bionic asymmetric medical materials for tissue repair, International Conference on Frontier Materials (ICFM), Qingdao, China, (中国青岛), Oct 13−17, 2023. 2. 仿细胞外基质动态互穿网络水凝胶组织工程支架, 中国材料大会2022-2023, 深圳, 7月7−10, 2023. (邀请报告) 3. Multifunctional hydrogel based on gelatin methacryloyl/oxidized dextran/ε-polylysine for multidrug−resistant bacteria infected wound healing, ACS Fall 2022, Chicago, Aug 21−25, 2022. (Virtual) 4. 单哺乳动物细胞纳米封装系统构建研究, 2021中国生物材料大会, 上海, 10月11−14, 2021. 5. 仿生非对称结构敷料的制备及其促创面愈合研究, 中国材料大会2021, 厦门, 7月8−12, 2021. (邀请报告) 6. 基于生物相容性反应构建单细胞纳米封装系统, 2019年中国生物材料大会, 大连, 8月22−25, 2019. 7. Nanoencapsulation of individual mammalian cells with biocompatible and cytoprotective polymer shell, International Conference on Regenerative Biomedical Materials (ICRBM 2019), Wuhan, China, (中国武汉) June 12−16, 2019. 8. 单细胞纳米封装系统的构建及其细胞治疗作用研究, 中国材料大会2018, 厦门, 7月12−16, 2018. 9. Encapsulation of single mammalian cell with polymer nanoshell, 26th Annual Meeting of MRS-J, Yokohama, Japan, (日本横滨) Dec 19−22, 2016. 10. A compatible and protective polymer nanoshell for individual mammalian cells encapsulation, Biomaterials International, Kenting, Taiwan, (台湾垦丁) Oct 30−Nov 3, 2016. 11. Encapsulation of single living cell by a mild polymerization approach, 65th Symposium on Macromolecules, Kanagawa University, Yokohama, Japan, (日本横滨) Sep 14−16, 2016. |