• Qianqian Yu received her PhD degree in Biochemistry and Molecular Biology from the Jinan University in 2016. She worked at the Jinan University as a Postdoc Research Associate in 2016-2018. Then, she joined SCUT to work on the field of biomaterials and nanomedicine as an Associate professor in 2018. In recent years, combined with the advantages of interdisciplinary research, she has engaged in scientific research in nano-biomedicine and other fields. Developed a variety of inorganic nanomaterials and composite functional nanomaterials to explore tumor image-guided optical therapy and combination therapy, proved the unique advantages of these functional nanomaterials in achieving precision therapy and improving the specificity of tumor therapy.

1. Bionic nanocarriers for tumor targeted drug delivery.

2. Biocatalytic materials for tumor biocatalytic therapy.

3. Functional nanomaterials for anti-inflammatory/antibacterial and tissue repair.

4. Tumor microenvironment regulation and sequential combination therapy.

• A Microphase Separation-Driven Supramolecular Tissue Adhesive with Instantaneous Dry/Wet Adhesion, Alcohol-Triggered Debonding, and Antibacterial Hemostasis, Bowen Pang, Weichang Li, Jiaqin Li, Shangwu Yang, Taolin Sun, Qianqian Yu*, Kan Yue*, Wei Zhang*, Advanced Materials, 2025, 2501810.

• A Bio-Responsive Hydrogel with Spatially Heterogeneous Structure for Treating Infectious Tissue Injuries, Zongtai Li, Tao Yang, Xiaolei Li, Panchao Yin, Bo Yang, Dongying li, Yan Wang*, Wei Teng*, Qianqian Yu*, Weichang Li*, Advanced Science, 2025, DOI: 10.1002/advs.202500088.

• Customized vascular repair microenvironment: poly(lactic acid)-gelatin nanofibrous scaffold decorated with bFGF and Ag@Fe3O4 core-shell nanowires, Congyi Yang; Weiwen Yuan; Guoxing Liao; Zhe Tang; Tong Zhu; Yifan Jia; Qianqian Yu*; LinGe Wang*, ACS Applied Materials & Interfaces, 2024, 16(31): 40787-40804.

• A multifunctional nanocatalytic system based on Chemodynamic- Starvation therapies with enhanced efficacy of cancer treatment. Mengmeng Xu, Yuan Liu, Wanru Luo, Fangrong Tan, Donghua Dong, Weichang Li, LinGe Wang, Qianqian Yu*, Journal of Colloid and Interface Science, 2023, 630:804-816.

• In situ fabrication of silver peroxide hybrid ultrathin co-based metal-organic frameworks for enhanced chemodynamic antibacterial therapy. Mengmeng Xu, Fangrong Tan, Wanru Luo, Yifan Jia, Yan Deng, Paul D. Topham, LinGe Wang*, Qianqian Yu*, ACS Applied Materials & Interfaces, 2023, 15(19): 22985-22998.

• Mild-temperature responsive nanocatalyst for controlled drug release and enhanced catalytic therapy. Mengmeng Xu, Xiaoqi Xie, Yuan Liu, Paul D. Topham, Yuandong Zeng, Jilai Zhan, LinGe Wang*, Qianqian Yu*, Acta Biomaterialia, 2023, 167: 473-488.

• Temperature-regulating phase change fiber scaffold toward mild photothermal-chemotherapy. Lei Chen, Xiaoqing Sun, Kai Cheng, Paul D. Topham, Mengmeng Xu, Yifan Jia, Donghua Dong, Shuo Wang, Yuan Liu, LinGe Wang*, Qianqian Yu*, Advanced Fiber Materials, 2022, 4(6): 1669-1684.

• Photothermal-responsive fiber dressing with enhanced antibacterial activity and cell manipulation towards promoting wound‐healing. Lei Chen, Di Zhang, Kai Cheng, Weichang Li, Qianqian Yu*, LinGe Wang*, Journal of Colloid and Interface Science, 2022, 623: 21-33.

• Can photothermal post-operative cancer treatment be induced by a thermal trigger? Lei Chen, Qianqian Yu*, Kai Cheng, Paul D. Topham, Mengmeng Xu, Xiaoqing Sun, Yumin Pan, Yifan Jia, Shuo Wang, LinGe Wang*, ACS Applied Materials & Interfaces, 2021, 13(51): 60837-60851.

• Superhydrophobic hierarchical fiber/bead composite membranes for efficient treatment of burns. Weichang Li#, Qianqian Yu#, Hang Yao, Yue Zhu, Paul D. Topham, Kan Yue, Li Ren*, LinGe Wang*, Acta Biomaterialia, 2019, 92: 60-70.