推动固态电池材料走向产业化 这个中试平台在成都高新区投运

Core Insights - The first advanced energy materials gene engineering integration innovation (pilot) platform in Southwest China has been established and put into operation in Chengdu, with a total investment of 55 million yuan [1] - The platform aims to address key challenges in the industrialization of solid-state battery materials, including slow material screening, poor interface compatibility, and long conversion cycles [1] - The platform focuses on three core areas: solid-state electrolyte pilot development, interface and packaging process optimization, and multi-specification solid-state cell trial production [1] Group 1 - The platform is equipped with over 80 sets of specialized materials gene engineering equipment and solid-state battery trial production lines, capable of controlling environments with a dew point as low as -60°C [1] - It aims to shift the research and development model from traditional "trial and error" to "precise design," significantly shortening the cycle from material discovery to application [1] - The platform's capabilities include the synthesis of sulfide, halide, and oxide solid-state electrolytes, optimizing ionic conductivity and interface stability [1] Group 2 - The next steps involve the establishment of a distributed energy integration research center to enhance the innovation system for new energy materials and promote the platform's services [2] - The platform will actively collaborate with research institutions like the University of Electronic Science and Technology and leading companies such as CATL to form a solid-state battery pilot production and research alliance [2] - The goal is to accelerate the transition of solid-state battery materials technology from the laboratory to mass production, establishing a global benchmark for solid-state battery material pilot technology [2]