CATL plans to launch condensed batteries in 2023

Ningde era chief scientist Wu Kai revealed at the World New Energy Vehicle Conference that Ningde era plans to launch a new generation of battery cells in 2023: condensed matter batteries. Condensed matter batteries have the characteristics of high safety, high reliability, and good cycle life.

Zeng Yuqun, chairman of CATL, has previously revealed that in addition to Kirin batteries, they are also tackling more new types of batteries, such as all-solid-state batteries, semi-solid-state batteries, and even condensed batteries that no one has heard of.

Zeng Yuqun said that the innovation of the power battery chemical system, the innovation of the structure, the innovation of the manufacturing, and the innovation of the business model can be integrated to promote the development of the new energy vehicle industry.

On June 23, CATL released the CTP3.0 Kirin battery. The system integration has reached a new high in the world, the volume utilization rate has exceeded 72%, and the energy density can reach 255Wh/kg, enabling the vehicle to last for 1,000 kilometers. CATL revealed that Kirin batteries will be mass-produced in 2023.

Some experts said that the core of condensed matter batteries is to achieve superfluidity, superconductivity, stability, and better conductivity. In short, the battery is more stable, larger in capacity, and faster in conduction efficiency.

In simple terms, a condensed matter refers to a system composed of a large number of particles with strong interactions between the particles. There are various condensed matter in nature. Superfluid states at low temperatures, superconducting states, Bose-Einstein condensates, ferromagnetic states in magnetic media, antiferromagnetic states, etc., are also condensed states.

Research focuses in condensed matter physics include related materials, quantum phase transitions, and the application of quantum field theory to condensed matter systems. Problems to be solved include high-temperature superconductivity, topological ordering, and theoretical descriptions of novel materials such as graphene and carbon nanotubes.

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