Foreign media reports that BioSolar, the US energy storage technology and materials developer, announced that with the help of its South Korean technology partner TopBattery, it has begun production and testing of its second commercial-grade prototype 21700 lithium-ion battery.
After testing, the prototype battery will be sent to potential manufacturing and development partners for internal qualification testing and analysis.
BioSolar's core focus is to apply its proprietary additive technology to the development of new silicon anode lithium-ion batteries, first to develop 21700 lithium-ion batteries for power tools.
It is understood that BioSolar is currently preparing two different types of commercial-grade 21700 prototype batteries. The first is based on the use of silicon alloy anode materials composed of Si particles (Si-MP), and the second is based on the number of pure silicon anode materials Si nanoparticles (Si-NP) used. The main difference between the two is that the size of Si-MP particles is much larger than that of Si-NP.
Dr. David Lee, CEO of BioSolar, said: "BioSolar has made significant progress in developing technologies to increase battery storage capacity, reduce costs and extend the life of lithium-ion batteries.
It is worth noting that with the development of battery technology and the feasibility of applications in power tools, BioSolar plans to use the knowledge gained from the above battery design and manufacturing to produce the next generation of high-energy high-power lithium-ion batteries for electric vehicles .
BioSolar's vision is to develop breakthrough energy technologies. Previous success stories include the world's first UL-certified bio-based backsheet for solar panels.
At present, including battery companies, material companies and OEMs are actively developing next-generation lithium battery technology, mainly through the improvement and optimization of the material system. Among them, the positive electrode is mainly developed in the direction of high nickel, and large-scale mass production and application have been achieved. The negative electrode is mainly silicon carbide, and its industrialization technology is still to be broken.
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