前沿技术风向标|全球动力电池前瞻技术与创新论坛共探产业未来

Core Insights - The global advanced technology forum on power batteries was successfully held in Yibin, focusing on cutting-edge technological breakthroughs and key challenges in the power battery sector, recognized as a "technical barometer" for global power battery development [1] - The forum attracted over 600 experts and representatives from various sectors, including battery manufacturing, automotive, materials, and research institutions, facilitating in-depth discussions on the latest technological advancements and core issues in next-generation batteries [1] Industry Trends - The competition in the battery industry is shifting from "engineering optimization" to "deep water of technological innovation," with core challenges now centered on breakthroughs in energy density, safety, fast charging performance, and resource constraints [5] - The lithium iron phosphate battery is expected to capture 80% of the market share by 2025, with the penetration rate of new energy vehicles nearing 50% [7] - The demand for batteries is projected to grow fourfold by 2030 and twelvefold by 2035, indicating significant growth potential in the industry [7] Technological Innovations - The oCVD/iCVD technology presented at the forum enhances the structural stability and electrochemical performance of high-nickel ternary battery materials through polymer coating [9] - The development of halide electrolytes shows better compatibility with cathodes compared to sulfides and oxides, but faces challenges in ionic conductivity, cost control, and electrode interface stability [10] - A new approach for solid-state battery interface issues involves "dynamic interface repair with dual ionic conductors," providing a pathway for low-pressure operation [10] Standardization and Engineering Challenges - The solid-state battery technology is becoming a new focus of global industrial competition, yet it still faces multiple challenges in materials, interfaces, and engineering [10] - Engineering challenges for sulfide solid-state batteries include material compatibility, electrolyte film formation, and interface design, necessitating a deep integration of materials, processes, and equipment innovation [11] Knowledge Sharing and Collaboration - A significant report on "Global Patent Analysis and Strategy for Solid-State Batteries" was released, focusing on the role of intellectual property in the development of next-generation batteries [13] - The forum served as a high-end communication platform, promoting deep connections between technological viewpoints and practical experiences, supporting the high-quality development of China's new energy industry [13]