议题更新 | 2026硅基负极与固态电池高峰论坛

Core Viewpoint - The article emphasizes the significance of silicon-based anode materials in the evolution of lithium-ion batteries, particularly in the context of the growing demand from emerging industries such as electric vehicles and AI technologies. It highlights the upcoming 2026 Silicon-Based Anode and Solid-State Battery Summit as a platform for discussing technological advancements and challenges in this field [3][4]. Summary by Sections Conference Background - The conference will take place on November 12-13, 2025, in Shanghai, China, organized by Xinluo Information. It aims to address the increasing demand for high-energy-density and high-safety lithium-ion batteries driven by the transition to low-carbon sustainable development [3]. - In the first half of 2025, global production of pure silicon-based anode materials reached 4,396 tons, marking a 76% year-on-year increase [3]. Market Trends and Projections - The market for silicon-based anodes is expected to grow significantly, with production projected to reach 25,300 tons by 2028, reflecting a compound annual growth rate (CAGR) of 50% from 2024 to 2028 [4]. - The current commercial application of silicon-carbon anode materials is primarily in cost-sensitive sectors like consumer electronics and power tools, with lower penetration in power battery applications. However, advancements in porous silicon-carbon technology are anticipated to accelerate industrial adoption [4]. Challenges and Innovations - Despite the promising outlook, the industrialization of silicon-based anodes faces challenges such as inherent material defects, high process complexity, and insufficient supply chain collaboration. Innovations and ecosystem restructuring are essential for overcoming these hurdles [4]. Conference Agenda - The conference will feature discussions on various topics, including: - Development bottlenecks and solutions for new silicon-based anode products [7] - Cost-reduction strategies for large-scale application of silicon-based anodes [7] - High-efficiency long-cycle silicon-based anode development [7] - Challenges in large-scale preparation of silicon-based anodes [7] - Differences in demand for silicon-based anodes across various electrolyte systems in solid-state batteries [7] - Development and application of new porous carbon materials [7] Participation Details - The conference registration fee is set at 2,800 yuan per participant, with a limited-time free attendance option available for the first 200 registrants [10].