Du Juan, female, a doctor and doctoral supervisor, is selected as the Young Top-notch Talent of the national Ten Thousand Talents Program. In 2007, she received her Ph.D. degree from the Shanghai Institute of Optics and Fine Mechanics (SIOM), Chinese Academy of Sciences (CAS), and then worked as a postdoctoral fellow and assistant professor at The University of Electro-Communications (UEC) in Japan. In 2013, she was introduced to China by SIOM under the Talent Program sponsored by CAS. In recent years, in view of the needs of cutting-edge applications such as integrated optics, with the miniaturization of laser technology as the focus, she has explored the new principles and mechanisms of lasers like ultrashort lasers at micro/nano scale with new gain materials, with achievements such as the world's smallest laser based on traditional laser cavity (with the three-dimensional size of only subwavelength) and a variety of LED light-emitting devices. She has published these research findings as the corresponding author in internationally renowned journals includingAdvanced Science,ACS Nano,Nano Energy,Small,ACS Photonics,ACS Appl. Mater. Interfaces,Chemical Engineering Journal, andAdvanced Optical Materials. These papers were quickly recognized and cited by international peers, and several papers were selected as ESI hot papers, ESI highly cited papers and their covers. She has presided over and participated in national key programs, programs of the National Natural Science Foundation of China, the Talent Program sponsored by CAS, the National Key R&D Program, and B-level strategic pioneering programs of science and technology by CAS, etc. She was rated as Outstanding in the final assessment of the BR Program of CAS, Advanced Individual for Meritorious Women of CAS, Leader of CAS Innovation Cross Team, and was invited to serve as the youth editorial board member of theChinese Journal of Luminescence. Under her guidance and assistance, many graduate students have won National Scholarship, Shanghai Outstanding Graduate, CAS Presidential Scholarship, Wang Daheng's Optical Prize, Shanghai "Super Postdoctoral" incentive program and so on.

She focuses on the research of the mechanism and devices of perovskite-based solar cells and micro-nano lasers, and frontier problems in physics and chemistry such as ultrafast dynamics and nonlinear optics related to photoelectric conversion and luminescence applications in perovskite and other materials through ultrafast laser spectroscopy, terahertz time-domain spectroscopy and microscopy imaging technique. By combining material preparation and device testing, she is committed to the understanding and application of functionalization of optoelectronic devices and luminescent devices, as well as the corresponding device development.