教育/科研工作经历 

2025-至今  华南理工大学             博士后

2019-2025      华南理工大学  生物医学工程  博士

2015-2019      南方医科大学  药学         学士

科研成果

主要从事生物活性纳米载体的构建及其在肿瘤免疫治疗、癌症疫苗等方面的研究。以第一作者/共同第一作者在相关领域期刊发表论文3篇。

科研方向

纳米医学、肿瘤免疫治疗

代表性研究论文

[1] Junbin Chen#, Miao Su#, Congfei Xu, Ziyang Cao, Xianzhu Yang*, Jun Wang*. Cationic lipid-polymer hybrid nanoparticle drives in situ generation and lymphatic navigation of tumor antigens to prime systemic antitumor immunity. Nano Today, 2024, 57, 102335.

[2] Junbin Chen, Yuxi Zhang, Miao Su, Yueqiang Zhu, Xianzhu Yang*. Nanomedicine-mediated immunogenic cell death and its combination with immune checkpoint blockade therapy. Science China Technological Sciences, 2024, 67(8): 2350-2362.

[3] Miao Su#, Junbin Chen#, Yueqiang Zhu, Chaoran Chen, Yuxi Zhang, Xianzhu Yang*. Noncationic polymer-assisted carrier for nucleic acid drug delivery. Science China Materials, 2024, 67(12): 3796–3810.

[4] Miao Su, Yueqiang Zhu, Junbin Chen, Beibei Zhang, Chunyagn Sun, Meiwan Chen, Xianzhu Yang*. Microfluidic synthesis of manganese-alginate nanogels with self- supplying H2O2 capability for synergistic chemo/chemodynamic therapy and boosting anticancer immunity. Chemical Engineering Journal, 2022, 435: 134926.

[5] Yueqiang Zhu#, Liangjie Jin#, Junbin Chen, Miao Su, Tianmeng Sun, Xianzhu Yang*. Promoting the recruitment, engagement, and reinvigoration of effector T cells via an injectable hydrogel with a supramolecular binding capability for cancer immunotherapy. Advanced Materials, 2023, 35(47): 2309667.

[6] Xinrui Pang#, Chaoping Fu#, Junbin Chen, Miao Su, Ruili Wei, Ye Wang, Wanxian Lin, Xinhua Wei, Xinqing Jiang, Xianzhu Yang, Huikang Yang*, Junxia Wang* and Ruimeng Yang*. A manganese-phenolic network platform amplifying STING activation to potentiate MRI guided cancer chemo-/chemodynamic/immune therapy. Biomaterials science, 2023, 11(11): 3840-3850.

[7] Xu Dai#, Yueqiang Zhu#, Miao Su, Junbin Chen, Song Shen, Cong-Fei Xu and Xianzhu Yang*. Rigid Shell Decorated Nanodevice with Fe/H2O2 Supply and Glutathione Depletion Capabilities for Potentiated Ferroptosis and Synergized Immunotherapy. Advanced Functional Materials, 2023, 33(27): 2215022.