Zheng Quan Shi Bao Wang·2025-12-25 11:59Core Viewpoint - The strategic cooperation agreement between Zhongwei Co., Ltd. and Xinwanda aims to develop new cathode material precursors for solid-state batteries, addressing key technical challenges in energy density, safety, and cycle life [1][2]. Group 1: Strategic Cooperation - Zhongwei and Xinwanda signed a strategic cooperation framework agreement on December 25, 2025, focusing on precursor product technology development, product supply, cathode material development, and global capacity layout [1]. - The collaboration aims to leverage both companies' technological, engineering, resource, and production advantages to achieve mutual benefits and maximize interests [1]. Group 2: Technical Development - The partnership will focus on developing new cathode material precursors that meet future solid-state battery performance requirements, with Zhongwei relying on its expertise in ternary material precursors [1][2]. - Xinwanda will utilize its research and manufacturing capabilities in lithium-ion and solid-state batteries to develop high energy density and safe solid-state battery cathode materials based on Zhongwei's new precursors [1][2]. Group 3: Market Positioning - The collaboration is expected to enhance Zhongwei's technical reserves and innovation capabilities by addressing core technical challenges in solid-state batteries [2]. - This partnership establishes a collaborative path from "material development—performance verification—industrialization," providing stable application outlets for Zhongwei's products and positioning the company favorably in emerging markets such as AI, autonomous driving, and low-altitude economy [2]. Group 4: Industry Context - Solid-state batteries are recognized as a significant development direction for next-generation battery technology, with applications in electric vehicles, eVTOL, and humanoid robots [3]. - Xinwanda has been involved in solid-state battery research since 2015, planning first and second-generation solid-state batteries with energy densities of 400Wh/kg and 500Wh/kg, respectively [3].