Beibei Shao

Associate Researcher, Institute of Functional Nano & Soft Materials (FUNSOM), Soochow University. Master’s Supervisor.

Beibei Shao received her B.S. degree in Chemistry and Molecular Engineering from Qingdao University of Science and Technology in 2014, and her M.S. degree from the State Key Laboratory of Fine Chemicals at Dalian University of Technology in 2017, under the supervision of Prof. Shufen Zhang and Prof. Rongwen Lü. She obtained her Ph.D. in 2022 from the Institute of Functional Nano & Soft Materials (FUNSOM), Soochow University, under the supervision of Prof. Baoquan Sun. From 2022 to 2025, she conducted postdoctoral research at the Department of Materials Science and Engineering, National University of Singapore, and Soochow University, under the joint supervision of Prof. Swee Ching Tan and Prof. Baoquan Sun.

Research Group: Prof. Baoquan Sun’s Group
Email: bbshao@suda.edu.cn
Office: Room 529, Building 910, Dushu Lake Campus, Soochow University

Research Interests and Achievements
Dr. Beibei Shao’s research focuses on the multiscale design and functional modulation of bioinspired intelligent interface materials, the development and application of flexible self-powered sensing systems, and AI-driven bioelectronic technologies. Her work targets interdisciplinary frontiers including physiological health monitoring, human–machine interfaces, multimodal tactile sensing, and intelligent medical robotics, aiming to advance the next generation of intelligent perception systems. She has published 16 SCI papers as first or corresponding author in leading international journals such as Science Advances, Nature Communications, Advanced Materials, Energy & Environmental Science, Advanced Energy Materials, ACS Nano, and Advanced Functional Materials. She is the principal investigator of several national research projects, including the National Natural Science Foundation of China (NSFC) Youth Program, the China Postdoctoral Science Foundation Special Grant, and the General Postdoctoral Fund. Her honors include being selected as one of the “20 Outstanding Chinese Women Scientists” by the French Embassy in China and China Association for Science and Technology, and receiving the Jiangsu Province Excellent Postdoctoral Fellowship.

Prospective students interested in materials science, flexible electronics, intelligent sensing, or artificial intelligence are warmly welcome to join the team and explore the future of intelligent interface technologies together!

Academic Honors

1. Selected as “20 Distinguished Chinese Female Scientists” by the French Embassy in China and the China Association for Science and Technology

2. 2023 Jiangsu Province Excellent Postdoctoral

3. Supervisor of the Second Prize Winner, 2024 Soochow University Innovation and Entrepreneurship Competition

Research Projects

1. Natural Science Foundation of China Youth Science Fund, Leader

2. The 17^th China Postdoctoral Science Foundation Special Grant, Leader

3. China Postdoctoral Science Foundation, Leader

4. China Scholarship Fund, Leader

Publications

1. Shao B.^#, Wu T. C.^#, Ko T. Y.^#, Peng W. C., Yan Z. X., Jhan D. J., Chang Y. H., Fong J. W., Lu M. H., Yang W. C., Chen J. Y., Lu M. Y., Sun B.*, Liu H. J.*, Liu R.*, Lai Y. C.* Deep-learning-empowered triboelectric acoustic textile for imperceptible voice perception and intuitive generative AI-voice access on clothing. Science Advances2025, In press.

2. Shao B.^#, Lu M. H.^#, Wu T. C., Peng W. C., Ko T. Y., Hsiao Y. C., Chen J. Y., Sun B.*, Liu R.*, Lai Y. C.* Large-area, untethered, metamorphic, and omnidirectionally-stretchable multiplexing self-powered triboelectric skins. Nature Communications, 2024, 15, 1238

3. Shao B.^#, Lu T. C.^#, Lu M. H., Chen Y. T., Wu T. C., Peng W. C., Ko T. Y., Chen J. Y., Sun B., Chen C. Y.*, Liu R.*, Hsu F. C.*, Lai Y. C.* Efficient permeable monolithic hybrid tribo-piezo-electromagnetic nanogenerator based on topological-insulator-composite. Advanced Materials, 2024, 2408936

4. Wang Y., Yuan X., Ni K., Song Y., Li X., Zeng X., Shao B.*, Sun B.* 3D dendritic hierarchically gradient nanoflowers in situ grown on conductive substrates for efficient hydrovoltaic power generation. Energy & Environmental Science, 2024, 17, 4780

5. Duan W.^#, Shao B.^#, Wang Z., Ni K., Liu S., Yuan X., Wang Y., Sun B., Zhang X., Liu R.* Silicon nanowire/ionic hydrogel-based hybrid moist-electric generators with enhanced voltage output and operational stability. Energy & Environmental Science, 2024, 17, 3788

6. Shao B., Song Y., Song Z., Wang Y., Wang Y.*, Liu R.*, Sun B.* Electricity generation from phase transitions between liquid and gaseous water. Advanced Energy Materials, 2023, 13, 2204091

7. Shao B., Song Z., Chen X., Wu Y., Li Y., Song C., Yang F., Song T., Wang Y.*, Lee S. T.*, Sun B.* Bioinspired hierarchical nanofabric electrode for silicon hydrovoltaic device with record power output. ACS Nano, 2021, 5, 7472

8. Song Y., Song Z., Jiang C., Xing C., Zeng X., Zhang Z., Chen Z., Song T., Shao B.*, Wang Y.*, Sun B.* Ferroelectric layer-assisted asymmetric heterojunction boosts power output in silicon hydrovoltaic device. Advanced Energy Materials, 2023, 2302765

9. Zeng X., Ding Y., Yuan X., Jiang C., Wang Y., Song Y., Li Y., Shao B.*, Wang Y.*, Sun B.* Photo-mediated cascade growth of Ag nanocrystals in flow reactor for high-performance flexible transparent electrodes. Advanced Energy Materials, 2023, 2309730

10. Shao B., Xing C., Song Y., Jiang C., Bai G., Song T., Liu R.*, Wang Y.*, Sun B.* Boosting electrical output of nanostructured silicon hydrovoltaic device via cobalt oxide enabled electrode surface contact. Nano Energy, 2023, 106, 108081

11. Shao B., Wu Y., Song Z., Yang H., Chen X., Zou Y., Zang J., Yang F., Song T., Wang Y.*, Shao M.*, Sun B.* Freestanding silicon nanowires mesh for efficient electricity generation from evaporation-induced water capillary flow. Nano Energy, 2022, 94, 106917

12. Song Y., Shu C., Song Z., Zeng X., Yuan X., Wang Y., Xu J., Feng Q., Song T., Shao B.*, Wang Y.*, Sun B.* Self-powered health monitoring with ultrafast response and recovery enabled by nanostructured silicon moisture electric generators. Chemical Engineering Journal, 2023, 468, 143797

13. Yuan X., Bai G., Wang Y., Zeng X., Shao B.*, Wang Y.*, Sun B.*Mapping capillary infiltration-induced potential in water-triggered electric generator using an electrical probe integrated microscope. Small, 2023, 2307201

Edited by Juan Yang