Ouyang Chuying, Zhao Xushan, Xu Bo
CATL (Contemporary Amperex Technology Co., Limited), Fujian, 352100, China
EXTENDED ABSTRACT: With the conntry's investment in carbon neutrality, carbon peaking and other fields, as well as its deployment in energy storage
straegies CTL is curren!l_Y activdy eploying an investi g in山gItal research and develo ment (R&D),lannchmg new hIgh-energy-ratl0 energy storage products : for the systems of _lithill!O-ion batteries,and all-solid-state batteries, p realizing the synergy of山gital R&D and manufacturing for the whole life cycle of the batteries, and enhancing the global influence and competitiveness. Based on this, CATL has continued to create four major innovation systems: "materials and material system innovation", "strnctnral innovation", "extreme manufacturing innovation" and "busioess model innovation".Materials and material system innovation, as the first link of the four major innovation systems of CATL, is essentially the development and application of material gene methods, that is,high-throughput computing & experiments,database & database technology, and artificial intelligence methods in theindustry. In response to the requirements of national strategic industries such as large-scale energy storage for higher performance energy storage devices and controllable domestic industrial software with independent intellectualproperty rights, CATL continues to build an intelligent design platform for
Ouyang Chuying, professor, received his Ph.D. degree from the Institute of Physics, Chinese Academy of Sciences (CAS), and then山d postdoctoral research at the Swiss Federal Institute of Technology(FIT). He is currently a血ector,president of R&D system linkage, and executive deputy director of 21C Innovation Laboratory of CATL (Contemporary Amperex Technology Co., L皿ted); executive deputy director of China Fujian Energy Device Science and Technology Innovation Laboratory; professor and doctoral supervisor of School of Physics and Communication Electronics of Jiangxi Normal University; and guest researcher of Puyuan Institute of Future Technology of Shanghai Jiao Tong University. He has long been engaged in computational physics research related to new energy materials, and has published more than 200 papers in academic journals such as "Nature Energy" and "National Science Review"; he was selected as Elsevier's 2020 China Highly Cited Scholar (Physics); won 3 third-class natural science awards in Jiangxi Province; served as the sub-project leader of the 863 plan key project "High-Performance Materials Design, Preparation and Characterization Technology Based on Materials Genetic Engineering"; received special government allowances from the State Council in 2023; won the Jiangxi Provincial People's Government Award in 2014 Special government allowance; selected as the leading talent of Jiangxi Province's "Ganpo Talents 555 Project" in 2011; selected as the "Hundreds and Thousands" Talent Project of Jiangxi Province in 2007