| Prof. Lingjie KongTsinghua University, China Kong Lingjie is currently an associate professor of the Department of Precision Instruments of Tsinghua University and a research fellow of Tsinghua-IDG / McGovern Brain Science Research Institute. He received a doctorate from Tsinghua University in 2012, and then engaged in postdoctoral research at Harvard University, Howard Hughes Institute of Medicine, and Purdue University. The main research direction is biomedical photonics. He has published many high-level papers in Nature Methods, Nature Photonics, etc., presided over one key project of the National Natural Science Foundation of China, one general project, and one scientific and technological innovation 2030- ' brain science and brain-like research ' ( Young Scientists Project ). Has been selected into the national high-level talent introduction program youth project, ' MIT Technology Review ' China 's ' 35 years old under the age of 35 scientific and technological innovation ' and so on. |
| Prof. Guilin MaoJiangsu Normal University, China Leader of Optical Engineering Molecular Spectroscopy Laboratory, School of Physics and Electronic Engineering, Jiangsu Normal University, is a national special expert with 20 years of research and development experience in laser system and laser application system. It is mainly engaged in the R & D, production and sales of high-power solid-state pulsed lasers, and has successfully developed several solid-state pulsed lasers, especially high-power deep ultraviolet solid-state pulsed lasers. In 2018, he joined Jiangsu Normal University and established Jiangsu Normal Atomic and Molecular Testing and Analysis Laboratory. |
| Prof. Runlong WuBeijing Information Science and Technology University, China He was awarded the Young Scientist of Science and Technology Innovation 2030 ' Brain Science and Brain-like Research ', National Postdoctoral Innovative Talents, Beijing ' Haiying Talents ', and presided over the National Key R & D Program Subversive Innovation Project, National Natural Science Foundation Youth Project and other projects. Focusing on the research of new biomedical imaging technologies and the development of precision instruments, we have invented a series of miniaturized two-photon microscopic imaging techniques. For the first time in the world, we have achieved clear and stable imaging of neurons and synapses in the brain of freely behaving mice, and established a new paradigm for imaging freely behaving animals. The relevant results were selected as the ' Top Ten Progresses in Science in China ' in 2017, and were rated as the ' Annual Method ' of 2018 by ' Nature Methods ' -unrestricted behavioral animal imaging technology, and selected as the National ' 13th Five-Year ' Science and Technology Innovation Achievement Exhibition. |
