High energy graphene battery
A graphene and graphene-wrapped technology, applied in battery electrodes, lithium storage batteries, secondary batteries, etc., can solve the problems of high production cost and complex production equipment, and achieve the effects of low production cost, simple assembly, and high safety performance.
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Embodiment 1
[0021] A graphene high-energy battery comprising graphene-wrapped Li 0.89 Ti 0.11 FePO 4 The positive electrode of the battery, Li 11 Si 2 P.S. 12 A solid electrolyte membrane made of materials and a negative electrode of a battery made of a graphene-wrapped silicon-based material, the solid electrolyte membrane is arranged between the positive electrode of the battery and the negative electrode of the battery, and the side of the positive electrode of the battery and the negative electrode of the battery against the solid electrolyte membrane is polished .
[0022] The preparation method of the solid electrolyte membrane is as follows: Li 2 S particles, SiS 2 Particles and P 2 S 5 Put the particles into the ball mill and mill at a speed of 600r / min for 12 hours. The balls used for ball milling are zirconia balls, and the ball-to-material ratio is 40:1. After the ball milling, a mixture is obtained, which is mixed with molten polyphenylene ether and pressed into a shee...
Embodiment 2
[0025] A graphene high-energy battery comprising graphene-wrapped Li 0.89 Ti 0.11 FePO 4 The positive electrode of the battery, Li 11 Si 2 P.S. 12 A solid electrolyte membrane made of materials and a negative electrode of a battery made of a graphene-wrapped silicon-based material, the solid electrolyte membrane is arranged between the positive electrode of the battery and the negative electrode of the battery, and the side of the positive electrode of the battery and the negative electrode of the battery against the solid electrolyte membrane is polished .
[0026] The preparation method of the solid electrolyte membrane is as follows: Li 2 S particles, SiS 2 Particles and P 2 S 5 Put the particles into the ball mill and mill at a speed of 500r / min for 20 hours. The balls used for ball milling are zirconia balls with a ball-to-material ratio of 35:1. After the ball milling, a mixture is obtained, which is mixed with molten polyphenylene ether and pressed into a sheet ...
Embodiment 3
[0029] A graphene high-energy battery comprising graphene-wrapped Li 0.89 Ti 0.11 FePO 4 The positive electrode of the battery, Li 11 Si 2 P.S. 12 A solid electrolyte membrane made of materials and a negative electrode of a battery made of a graphene-wrapped silicon-based material, the solid electrolyte membrane is arranged between the positive electrode of the battery and the negative electrode of the battery, and the side of the positive electrode of the battery and the negative electrode of the battery against the solid electrolyte membrane is polished .
[0030] The preparation method of the solid electrolyte membrane is as follows: Li 2 S particles, SiS 2 Particles and P 2 S 5 Put the particles into the ball mill and mill at a speed of 550r / min for 18 hours. The balls used for ball milling are zirconia balls, and the ball-to-material ratio is 30:1. After the ball milling, a mixture is obtained, which is mixed with molten polyphenylene ether and pressed into a shee...
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