3. Lithium-carbon dioxide battery can be fully charged
The energy density of the lithium-carbon dioxide battery is more than 7 times the lithium ion battery, but it is very difficult to develop a version that can repeatedly charge it. This is because during charging, there will be excessive carbon in the battery catalyst.
In September, the Scientist of the Chicago Branch of Illinois reported the solution to the carbon problem, which proves the first lithium-carbon dioxide battery that they are called fully charged.
The battery utilizes a "nanoform" in which molybdenum disulfide in the cathode and a mixed electrolyte composed of ionic liquid and dimethyl sulfoxide, which prevents carbon from being accumulated on the catalyst, and allows the battery at 500 Charging in a continuous cycle.
4. Electrical grid-level energy storage with molten silicon core
Renewable energy such as wind energy and solar energy can produce a large amount of power, but it stores this electric power to prepare from time to time, which is required for the uncertainty of weather. As early as in April, Australian Startup CLIMATE CHANGE TECHNOLOGIES (CCT) launched a more effective solution that it believes than standard lithium-ion power grid storage schemes.
Wuxi Huizhong Weiye Electric Co., Ltd. Sales: Huizhong Battery, Xiahua Battery,
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