个人信息
Personal Information
- 性别:女
- 导师类型:博士生导师
- 职称:研究员
- 该职称任职时间:2021
联系方式
Contact Information
- 所属院系:生物医学工程研究所(天津)
- 所属专业:药学、生物医学工程
- 邮箱 : zmm_zmm_zmm@hotmail.com
- 工作电话 : 022-87890153
个人简介
Personal Profile
张明明,博士,研究员,博士生导师。 1997-2007年于南开大学高分子化学研究所获学士、硕士及博士学位。 2008年至今,就职于中国医学科学院生物医学工程研究所,整合再生医学实验室成员。 研究方向: 生物体是大自然最“智能”的物体,它们能够适应自然环境来生存繁衍。宏观的生物体由器官、亚器官及微观的细胞等通过有序组装而成,而微观的细胞又由原子分子等超微观物质通过有序组装而成。因此宏观生命体的功能和智能性归根结底属于微观的分子原子间的化学反应。当生命体的正常化学反应或分子(结构、构象)产生异常,有可能引发疾病。如何运用“智能材料”在微观的分子和细胞水平来纠正这些错误,进而达到治疗疾病的目的,一直是我们关注的研究方向。 “智能型”高分子材料可以由环境的触发(如pH值、温度、氧化还原、酶、光、声、电、磁等)而发生形态功能的转变,实现分子水平的“功能”开关,以使其在需要的时间和部位实现功能。运用成熟的合成方法,我们能够精确地调控高分子材料的结构(化学结构及拓扑结构),从而精确调控材料的“智能性”,通过探索其与生物体之间的相互作用,可以帮助我们在分子水平理解材料如何调控生物体的功能,以及如何实现细胞到组织的组装和转化,达到疾病治疗和创伤修复的目的。 课题组长期致力于开发新颖结构的“智能型”高分子材料,探索它们如何通过新颖的方式来调控细胞功能,进而指导疾病(脊髓损伤修复、肿瘤等)的治疗。研究工作曾获国家自然科学基金、教育部博士点基金、天津市应用基础与前沿技术研究计划项目、协和青年基金、中央公益性院所基本科研业务费等多项基金项目的资助,成果以一作或通讯身份发表于Advanced Functional Materials, Bioactive Materials, Advanced Science, Biomacromolecules, Macromolecules, Journal of Nanobiotechnology, Biomaterials Science, ACS Biomaterials Science & Engineering, Polymer Chemistry, International Journal of Pharmaceutics, Macromolecular Rapid Communication, Polymer 等学术期刊。研究工作曾被Chemical Reviews, Chemical Society Reviews, Progress in Polymer Science 等综述多次引用。申请发明专利10项,获授权8项,实审2项。
团队简介
Team Profile
本人为整合再生医学团队成员。 整合再生医学团队PI为戴建武研究员。 团队主要从事脊髓损伤修复相关研究,涵盖化学、材料、生物、医学、电子信息等多学科交叉的研究方向。
- 研究方向Research Directions
- 在校研究生Current Graduate Students
硕士研究生 3 名,博士研究生 0 名
- 科研项目Research Projects
| # | 项目名称 | 起止日期 | 金额 | 项目类型 | 本人角色 |
|---|---|---|---|---|---|
| 1 | 医用机器人和生物人工器官的关键技术及应用 | 2021-11-01 —— | 4000万元 | 主持的企业/行业委托重大项目 | 参与者 |
| 2 | 光热触发原位抗原共组装及靶向树突状细胞的肿瘤纳米治疗体系 | 2024-01 —— 2027-12 | 50万元 | 主持在研的国家或省部级科研项目 | 主持人 |
| 3 | 国家重点研发计划“诊疗装备与生物医用材料”重点专项:“脊髓损伤修复生物材料产品研发” | 2023-11 —— 2027-10 | 1200 | 参与在研的国家或省部级科研项目 | 参与者 |
- 发表论文Papers
| # | 论文题目 | 期刊名称 | 发表年份 | 论文署名 |
|---|---|---|---|---|
| 1 | Design of a UCST polymer with strong hydrogen bonds and reactive moieties for facile polymer-protein hybridization. | Biomacromolecules | 2022-01 | Jialin Sun, Jianlei Lu, Chen Li, Yueyi Tian, Kang Liu, Lingrong Liu, Chuanzhuang Zhao*, Mingming Zhang*. |
| 2 | A flexible fibrin-based platform for driving one-day self-assembly of millimeter-sized cell-rich spheroids and their applications: an old material with new tricks. | Advanced Functional Materials | 2024-05 | Jiahui Lai, Dexin Kong, Yuting Liu, Jianwu Dai*, Mingming Zhang*. |
| 3 | Advances in electroactive bioscaffolds for repairing spinal cord injury. | Biomedical Material | 2024-04 | Zeqi Liu, Jiahui Lai, Dexin Kong, Yannan Zhao, Jiakang Zhao, Jianwu Dai,* Mingming Zhang*. |
| 4 | Rapid Self-Assembly Mini-livers Protect Mice Against Severe Hepatectomy-Induced Liver Failure. | Advanced Science | 2024-03 | Miaomiao Luo, Jiahui Lai, Enhua Zhang, Yue Ma, Runbang He, Lina Mao, Bo Deng, Junjin Zhu, Yan Ding, Jialyu Huang, Bin Xue, Qiangsong Wang, Mingming Zhang*, Pengyu Huang* |
| 5 | PEI-Based Nanoparticles for Tumor Immunotherapy via In Situ Antigen-Capture Triggered by Photothermal Therapy. | ACS Applied Materials & Interfaces | 2023-11 | Wenjuan Chen, Mingming Zhang*, Chun Wang*, Qiqing Zhang* |
| 6 | Polymer-Protein Nanovaccine Synthesized via Reactive Self-Assembly with Potential Application in Cancer Immunotherapy: Physicochemical And Biological Characterization In Vitro And in Vivo. | Macromolecular Rapid Communications | 2023-09 | Mingming Zhang, Wenjuan Chen, Yuanyuan Ju, Hanying Zhao*, Chun Wang* |
| 7 | The phase transition correlation with their parent polymers and the improved protein co-assembly ability. | Journal of Colloid and Interface Science | 2023-07 | Jiahui Lai, Jialin Sun, Chen Li, Jianlei Lu, Yueyi Tian, Yuting Liu, Chuanzhuang Zhao, Mingming Zhang* |
| 8 | Color-Shifting Fluorescent System Based on an AIE Polymer with an Upper Critical Solution Temperature. | Macromolecules | 2023-06 | Shunfeng Yu, Kang Liu, Yueyi Tian, Xiaoxiao Chen, Jie Zhang, Mei Gao, Jinhui Wang, Mingming Zhang,* and Chuanzhuang Zhao* |
| 9 | Poly(N-acryloyl glycinamide-co-N-acryloxysuccinimide) Nanoparticles: Tunable Thermo-Responsiveness and Improved Bio-Interfacial Adhesion for Cell Function Regulation. | ACS Applied Materials & Interfaces | 2023-02 | Yueyi Tian, Jiahui Lai, Chen Li, Jialin Sun, Kang Liu, Chuanzhuang Zhao*, Mingming Zhang*. |
| 10 | Polymerization-Induced Interfacial Self-Assembly: A Powerful Tool for the Synthesis of Micro-sized Hollow Capsules. | Macromolecules | 2021-12 | Yanhang Hong, Wen Zhong, Mingming Zhang*, and Hanying Zhao* |
| 11 | Self-assembled nanoparticles containing photosensitizer and polycationic brush for synergistic photothermal and photodynamic therapies against periodontitis. | Journal of Nanobiotechnology | 2021-12 | Enyu Shi, Liya Bai, Lujia Mao, Hanping Wang, Xiaoying Yang, Yinsong Wang, Mingming Zhang*, Changyi Li*, Yue Wang* |
| 12 | Small dop of comonomer, giant shift of cloud point: Thermo-responsive behavior and mechanism of poly(methylacrylamide) copolymers with an upper critical solution temperature. | Journal of Polymer Science | 2021-06 | Jianlei Lu, Xionglin Zhou, Jialin Sun, Mengdi Xu, Mingming Zhang*, Chuanzhuang Zhao* |
| 13 | Fabrication of PεCL-AuNP-BSA core-shell-corona nanoparticles for flexible spatiotemporal drug delivery and SERS detection. | Biomaterials Science | 2021-04 | Yanhang Hong, Yuanyuan Ju, Wenjuan Chen, Yingze Liu, Mingming Zhang*, Hanying Zhao* |
| 14 | Preferentially released miR-122 from cyclodextrin-based star copolymer nanoparticle enhances hepatoma chemotherapy by apoptosis induction and cytotoxics efflux inhibition. | Bioactive Materials | 2021-04 | Qingqing Xiong*, Yang Bai, Run Shi, Jian Wang, Weiguo Xu, Mingming Zhang*, Tianqiang Song*. |
| 15 | A Dissolvable Microneedle Formulation of Bordetella pertussis Subunit Vaccine: Translational Development and Immunological Evaluation in Mice. | ACS Applied Bio Materials | 2019-10 | Dan Dan Zhu, Xiaoli Wang, Xiao Peng Zhang, Jing Jing Ma, De Ling Kong, Ming Ming Zhang*, Xin Dong Guo*, and Chun Wang. |
| 16 | Star-shaped Poly(2-aminoethyl methacrylate)s as Non-viral Gene Carriers: Exploring Structure-Function Relationship. | Colloids and Surfaces B: Biointerfaces | 2019-06 | Wenjuan Chen, Yanhang Hong, Tao Zhang, Deling Kong, Mingming Zhang*, Qiqing Zhang*, Chun Wang* |
- 科研获奖Research Awards
无
- 研究成果Research Findings
| # | 成果类型 | 项目/专利/新品种名称 |
|---|---|---|
| 1 | 作为主创人员获得授权的发明专利和新品种 | 一种温敏性水凝胶及其制备方法和应用 |
| 2 | 作为主创人员获得授权的发明专利和新品种 | 一种普适性细胞背包聚合物系统及制备方法 |
| 3 | 作为主创人员获得授权的发明专利和新品种 | 一种反应性UCST聚合物及制备方法 |
| 4 | 作为主创人员获得授权的发明专利和新品种 | 一种UCST增强型丙烯酰胺共聚物及其制备方法 |
| 5 | 作为主创人员获得授权的发明专利和新品种 | 醛基化菊糖及其制备方法和应用 |
| 6 | 作为主创人员获得授权的发明专利和新品种 | 一种百日咳疫苗微针阵列及其制备方法 |