Team Members

Dr. Huiyi Wang

Email：huiyi_wang_2024@shu.edu.cn

Personal Profile:

Dr. Huiyi is engaged in hydrogel materials for biomedical applications, including hydrogel patches, microneedles, nanogels, hydrogel fibers, aerogels, etc. She is experienced in various hydrogel materials for topical skin drug delivery. Additionally, she is developing soft hydrogels as flexible wearable devices for monitoring minor changes in the physiological microenvironment, achieving combined diagnosis and treatment. Meanwhile, she is integrating the nanogels into microfluidic technology with collaborators to fabricate cancer chips for companion diagnostics. She has 9 SCI publications in the relevant research fields. She was awarded the CSC National High-level University Construction Scholarship in 2018 to pursue a doctoral degree in Spain.

Research Direction：

Hydrogels, microneedles, nanogels, aerogels, and upconverting nanoparticles in terms of dermal drug delivery, wound management, and cancer treatment. Wearable soft devices based on hydrogels. Cancer chips. Biobased conductive materials.

Educational Background：

2023.12 Doctor POLYMAT Institute, Basque University (Spain)

2018.06 Master Guangzhou Institute of Chemistry, University of Chinese Academy of Sciences

2015.06 Bachelor Donghua University

Work Experience：

2024.01 - now International expert SSIAT, Shanghai University

2024.01 - now Senior scientist Indicate Biotech (Shanghai) Co., Ltd

2023.07 - 2023.09 Intern student in R&D Beiersdorf AG (Germany)

Scientific research achievements and awards:

9 SCI publications in relevant research fields. CSC National High-level University Construction Scholarship for doctor.

Representative Results:

1.Wang, H., Tiwari, N., Orellano M.S., Navarro, L., Beiranvand, Z., Adeli, M., Calderón, M. Introducing β-cyclodextrin to thermoresponsive nanogels to enhance dermal penetration of hydrophobic drugs. Small (2024): 2311166.

2.Wolfel, A., Wang, H., Osorio-Blanco, E.R., Bergueiro J., Romero, M., Alvarez Igarzabal, C.I, Calder.n, M. Structural control and functionalization of thermoresponsive nanogels: turning cross-linking points into anchoring groups. Polymer Chemistry, 2023, 14(25), 2998-3007.

3.Wang, H., Picchio, M. L., Calder.n, M.. One stone, many birds: Recent advances in functional nanogels for cancer nanotheranostics. Wires nanomedicine and nanotechnology, 2022, 14(4), e1791.

4.Tiwari, N., Osorio-Blanco, E.R., Sonzogni, A., Esporr.n-Ubieto, D., Wang, H. and Calderón, M.. Nanocarriers for Skin Applications: Where Do We Stand?. Angewandte Chemie International Edition, 2022, 61(3), e202107960.

5.Wang, H., Pang, H., Wei, D., Li, T., Yong, Q., Huang, J., & Liao, B. (2018). Fabrication of hollow core–shell conductive nanoparticles based on nanocrystalline cellulose for conductive adhesive. Journal of Materials Science: Materials in Electronics, 2018, 29, 9829-9839.

6.Hou, K., Wang, H., Lin, Y., Chen, S., Yang, S., Cheng, Y., ... & Zhu, M. (2016). Large scale production of continuous hydrogel fibers with anisotropic swelling behavior by dynamic‐crosslinking‐spinning. Macromolecular Rapid Communications, 2016,37(22), 1795-1801.