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. |