Technological Revolution Of Lithium Batteries

• From laboratory to commercial application
  The lithium battery technology founded by the Goodenough team in the 1970s was first commercialized by Sony in 1991. This breakthrough technology increased the energy density to more than three times that of traditional batteries, entirely changing the development trajectory of portable electronic devices.

• Paradigm Shift Of Energy Storage
  Lithium batteries support the daily continuous use needs of smartphones with ultra-high energy density of 400-600 Wh/L and charge and discharge efficiency of more than 80%. Its cycle life has reached a breakthrough of 500-2000 times, building the energy foundation of modern mobile devices.

Analysis Of Lithium Battery Core Technology

• Energy Conversion In The Microscopic World
  The electrode system with lithium cobalt oxide/graphite as a typical combination realizes the storage and release of electrical energy through the reciprocating migration of lithium ions in the voltage range of 0.1-4.3V. The ion channel composed of lithium hexafluorophosphate in the electrolyte ensures trillions of ion transmissions per second.

• Technology Evolution Roadmap
  From 18650 cylindrical batteries to CTP (Cell to Pack) integrated technology, the volume utilization rate has increased by 40%. The lithium iron phosphate system has extended the cycle life to 8,000 times through nano-coating technology, and the cost has decreased by 60%.

Lithium Ion battery Application and Challenges

1. Trillion-Level Market Map
   The global lithium battery market is expected to exceed US$100 billion in 2025, of which power batteries account for more than 70%. Tesla's 4680 battery has achieved a 16% increase in battery life, and CATL's sodium-ion battery has opened a new era of low-cost energy storage.

1. Technical Breakthrough Direction
   Solid-state electrolyte research and development has increased the thermal runaway temperature to above 200°C, and the theoretical capacity of the silicon-carbon negative electrode has reached 4200 mAh/g. Hydrometallurgical technology with a lithium metal recovery rate exceeding 95% has alleviated the pressure of 60% of global lithium resources relying on imports.

1. IV. Future Energy Landscape
   The laboratory energy density of solid-state batteries has reached 500 Wh/kg, and the theoretical limit of lithium-sulfur batteries has exceeded 2600 Wh/kg. As AI-driven material research and development accelerates, the new generation of lithium ion batteries will continue to lead the energy storage revolution and support the realization of carbon neutrality goals (Please look forward to LIFMOCER's new technology battery).