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Microscopic processes of charging and discharging lithium-ion batteries [GIF image]

Taking a lithium-ion battery with LiFePO4 as the cathode material as an example, charging begins ↓

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Before charging, lithium ions are embedded in the layered structure of the cathode material.

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After charging begins, the positive electrode material loses electrons,and lithium ions are extracted from it.

Positive electrode reaction: Lithium ion extraction, LiFePO4- xe⁻→ Li1-xFePO4 + xLi ⁺

Fe²⁺ ions lose electrons. Since not all lithium ions are extracted, the charging efficiency is not 100%.

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Lithium ions pass through the electrolyte and separator to reach the negative electrode graphite material.

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Lithium ions are inserted into the graphite layer, while electrons reach the negative electrode through the external circuit. The electrode reaction is: xLi⁺+ x e⁻+ 6C →LixC6

The lithium ions gain electrons, forming a relatively stable lithium-intercalated (lithium with a valence of 0, i.e., a special form of elemental lithium) graphite.

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As charging continues, the cathode material continuously loses electrons, and lithium ions continuously intercalate and deintercalate until charging is complete.

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As the electric vehicle is in motion, the lithium-ion battery begins to discharge↓

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Electrons leave (de-intercalate) from the negative electrode material and flow to the positive electrode through the external circuit. The electrode reaction is: LixC6 – xe⁻→ xLi⁺ + 6C

The lithium ions generated after losing electrons also de-intercalate from the graphite layers.

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After being deintercalated from the negative electrode, lithium ions return to the positive electrode through the electrolyte and separator. The electrode reaction is as follows: Li₁₋xFePO4+xLi⁺+ xe⁻ →LiFePO4

After lithium ion intercalation, a relatively stable lithium-intercalated positive electrode material, LiFePO4, is formed.

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The above describes the microscopic movement of lithium ions during charging and discharging.

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