富华德·神州天玑新一代储能锂碳电容(电池)在京发布

Core Insights - The launch of the new generation of lithium-carbon capacitors (batteries) by Fuhua De and Shenzhou Tianji aims to fill multiple industry gaps with high safety, high power, and long lifespan applications [1][3][10] - The product features a unique physical energy storage property that ensures ultra-high safety, eliminating risks of thermal runaway, fire, and explosion, thus marking a significant advancement in battery technology [3][10][12] Product Features - The lithium-carbon capacitor achieves energy density comparable to lithium iron phosphate batteries, with a cycle life ranging from 50,000 to 500,000 times, and under laboratory conditions, it can reach up to 5 million cycles [3] - Power density is exceptionally high, reaching 8,000 to 12,000 W/kg, which is over ten times that of lithium iron phosphate batteries [3] - It operates efficiently across a wide temperature range of -50°C to 80°C, maintaining over 90% capacity at -40°C [3] - The product supports ultra-fast charging at rates of 20-30C without compromising lifespan or capacity, with a minimal degradation of less than 5% after 140,000 deep discharge cycles [3] Application Scenarios - Ten scenario-based application products were launched, addressing traditional battery limitations and filling industry gaps, including high-power batteries for electric bicycles with a 50 km range and a 20-minute fast charge [4] - The lithium-carbon capacitors are suitable for new energy heavy trucks, mining trucks, and engineering machinery, offering the lowest lifecycle costs globally due to their long cycle life and high power output [5] - Applications extend to AI data centers and mobile communication base stations, providing high power output and rapid response times, suitable for deployment in extreme environments [6] Industry Impact - The lithium-carbon capacitor is positioned as a game-changer in the energy sector, with its safety and performance characteristics enabling new applications in hazardous material transport and extreme conditions [5][10] - The product's development is supported by extensive research and testing over 20 years, demonstrating its potential to complement existing technologies like lithium batteries and hydrogen energy [8][9][12] - The establishment of a joint laboratory with the Chinese Academy of Sciences aims to enhance research and development in safety, energy density, and temperature resilience for future applications [14]