ENERGY TECHNOLOGY(SZ:002812)2025-05-20 15:34Group 1: Company Overview and Strategic Initiatives - The company established a subsidiary in 2021 for solid-state battery materials, focusing on sulfide routes with three products developed: high-purity lithium sulfide, sulfide solid electrolyte, and sulfide electrolyte membrane [2] - The pilot production line for sulfide solid electrolyte materials in Yuxi, Yunnan, is designed for an annual capacity of approximately 1,000 tons, with phased construction [2] - The market for solid-state batteries is currently limited due to high costs, with liquid lithium batteries and semi-solid batteries dominating, although niche applications in military, aerospace, and deep-sea sectors are anticipated [2] Group 2: Production and Supply Agreements - In November 2021, the company formed a joint venture for semi-solid battery separator production, with two production lines currently operational [3] - A procurement framework agreement was signed in January 2025 with Beijing Weilan, committing to supply 80% of its material needs for semi-solid and solid-state battery electrolytes from the company [3] - From 2025 to 2030, the expected total orders for semi-solid and solid-state battery electrolyte separators are projected to exceed 300 million square meters and 100 tons, respectively [3] Group 3: Product Development and Performance - The company has achieved a purity of 99.9% for its lithium sulfide products, with production capacity reaching the hundred-ton level [4] - Recent advancements in solid electrolyte technology have reduced particle size to 300 nm while maintaining an ionic conductivity of over 6 mS/cm, which is considered high in the industry [5] - Smaller particle sizes enhance battery performance by reducing interfacial resistance and increasing energy density, while also minimizing lithium dendrite formation [6] Group 4: Manufacturing Techniques and Quality Control - The solid electrolyte membrane is produced by mixing sulfide solid electrolyte, solvent, and binder, then applying it to a PET film using a roller pressing method, achieving a thickness of 30 µm and ionic conductivity above 3 mS/cm [7] - The optimal porosity for solid electrolyte membranes is below 5% to effectively prevent lithium dendrite formation [8] - The company employs solid-phase synthesis for electrolyte preparation, which is safer and environmentally friendly, resulting in higher conductivity compared to liquid and gas-phase methods [9]