朱跃强 博士后

 E-mail：zyqabc123@163.com

教育/科研工作经历

2024-至今    广州医科大学            博士后

2020-2024    华南理工大学   材料与化工    博士

2016-2019    合肥工业大学   制药工程     硕士

2012-2016    安徽大学     材料化学     学士

科研成果

主要从事生物医用高分子材料的研究，设计并构建功能性高分子材料，探究其在肿瘤成像检测及治疗中的应用。以第一作者/共同第一作者在相关领域期刊发表论文7篇。

科研方向

生物医用高分子材料、肿瘤免疫治疗

代表性研究论文

[1] Yueqiang Zhu, Chaoran Chen, Junbin Chen, Miao Su, Wanling Huang, Sichen Liu, Mingda Yang, Chengqiong Mao, Song Shen*, Xianzhu Yang*, Jun Wang*. In Vivo Generation and Manipulation of CAR-T-mimicking Cells via Magnetic Bispecific Nano-antibody for Solid Tumor Therapy. Advanced Materials, 2026, e20493.

[2] 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, 2309667.

[3]Yueqiang Zhu^#, Yonghong Song^#, Ziyang Cao^#, Liang Dong, Yang Lu*, Xianzhu Yang*, Jun Wang*. Magnetically actuated active deep tumor penetration of deformable large nanocarriers for enhanced cancer therapy. Advanced Functional Materials, 2021, 31, 2103655.

[4] Yueqiang Zhu^#, Yonghong Song^#, Ziyang Cao*, Liang Dong, Song Shen, Yang Lu*, Xianzhu Yang*. A Magnetically Driven Amoeba‐Like Nanorobot for Whole‐Process Active Drug Transport. Advanced Science, 2023, 10, 2204793.

[5] Yueqiang Zhu^#, Chao Chen^#, Ziyang Cao^#, Song Shen*, Laisheng Li, Dongdong Li, Junxia Wang, Xianzhu Yang*. On-demand PEGylation and dePEGylation of PLA-based nanocarriers via amphiphilic mPEG-TK-Ce6 for nanoenabled cancer chemotherapy. Theranostics, 2019, 9, 8312.

[6].Xu Dai^#, Yueqiang Zhu^#, Miao Su, Junbin Chen, Song Shen, Cong-Fei Xu, 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, 2215022.

[7] Fangzheng Li^#, Yueqiang Zhu^#, Dongli Qi, Chaoran Chen, Hao Li, Ziyang Cao*, Xianzhu Yang*. Magnetically actuated aggregation of nanoparticles via host–guest interaction for extracellular targeted drug delivery and cancer immunotherapy. Nano Research, 2025, 18, 94907164.