Lithium ion batteries rely on the movement of lithium ions between electrodes to generate electrical energy. The storage and release of this electrical energy is achieved by inserting and removing lithium ions released from the positive electrode active material into the negative electrode active material, without any chemical reaction. This is a major characteristic of lithium-ion batteries.
The characteristic of its battery response determines that it will have a longer lifespan than traditional secondary batteries. In addition, the wide selection space for electrode data is also a major feature of lithium-ion batteries. In addition, lithium-ion batteries themselves have the characteristics of miniaturization, lightweight, and high voltage. Through data selection and structural planning, high output power and capacity can be achieved, and thus structures and characteristics that are suitable for practical use can be planned. This is also one of the advantages of lithium-ion batteries.
A lithium-ion battery consists of a positive electrode active substance as an oxidant, a negative electrode active substance as a reducing agent, an electrolyte as a lithium-ion conductive phase, and a separator to prevent short circuits between the two electrodes. Taking lithium-ion batteries as an example, the storage environment and precautions for batteries are as follows:
Storage environment requirements and precautions: Do not immerse power battery assembly products in water or rinse with water. Stop putting power battery assembly products into fire or long-term exposure to high temperature environments, and stay away from heat sources. Prevent storage and use in environments with high static electricity or electromagnetic radiation.
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