Core Viewpoint - Battery technology is a crucial driver for the development of the low-altitude economy, with significant advancements being made in energy density, safety, and adaptability to extreme environments [1] Group 1: Battery Technology Developments - Semi-solid batteries have been successfully applied in low-altitude flying vehicles, meeting the demands for long endurance, rapid recharging, and inherent safety [1] - During CIBF 2025, companies like XWANDA introduced new battery products, such as the "XWANDA Cloud 2.0," which has an energy density of 360Wh/kg, higher than conventional automotive batteries [2] - Aiming for a breakthrough, XWANDA plans to achieve a solid-state battery energy density of over 500Wh/kg by 2027 [2] Group 2: Market Dynamics and Opportunities - The low-altitude economy presents new growth opportunities for battery companies, with increasing demand driven by the emergence of drones and flying cars [4] - The Ministry of Industry and Information Technology has set goals for the production of aviation lithium batteries with energy densities of 400Wh/kg and validation of 500Wh/kg products by 2030 [4] - Industry experts emphasize the need for collaboration across the supply chain to overcome technical challenges and accelerate development in the low-altitude battery sector [5] Group 3: Competitive Landscape - The battery sector is witnessing a shift as companies aim to become solution providers rather than just battery manufacturers, with firms like CATL and EVE Lithium Energy expanding into various new energy applications [6] - The electric transportation sector is projected to require over $3 trillion annually by 2030 to meet global net-zero carbon emission goals, highlighting the critical role of battery technology [6]