Saturnose, an Asian battery research and development company, announced that it will publicly release the independent test results of the enhanced aluminum ion battery, and plans to launch a solid-state rechargeable aluminum ion battery, which will be released as soon as next year. This may be the world's first mass-produced commercial-grade aluminum ion solid-state battery, which is expected to replace the risky lithium-ion battery.
Ea? I don't use cobalt or nickel, but use elements such as aluminum, niobium and solid electrolyte, and develop its fast charging electrode and electrolyte through mixed nanotechnology; It is 5% cheaper than lithium-ion battery technology in cost, and has higher energy, density and battery cycle life, and there will be no problems such as fire caused by thermal runaway.
many people have turned their attention to aluminum ion batteries. Saturnos, an Indian researcher supported by Saudi Arabia, plans to announce its Enhanced Altered Aluminum Ion (Ea? I) Independent testing of battery chemical composition, and the introduction of solid-state rechargeable aluminum battery in 222. After it is put into production in 222, it will become the world's first commercial aluminum ion solid-state battery, and it will begin a long and slow process to replace the higher-risk lithium-ion battery chemical composition.
Gayad Eide, the founder of Dana Venture Capital, put Ea? I battery is described as a step forward to the solid aluminum ion battery. He said that the battery does not use cobalt or nickel, and there are no dendrites of lithium ions and thermal runaway fires. On the contrary, Ea? The cathode of I system uses high-energy, changing and disordered rock salt structure, and its prototype is now being tested.
IT house understands that the patented Ea? The process behind I battery uses mixed nanotechnology to develop its fast charging electrodes and electrolytes. It uses aluminum and niobium and solid electrolyte. It is said that it is 5% cheaper than lithium-ion battery technology and has higher specific energy, capacity, cycle and battery life.
with the transformation of electric vehicles by major car companies around the world, and the vigorous development of new energy industries in various countries around the world, the demand for lithium batteries has been seriously in short supply. The prices of raw materials for the production of lithium batteries are soaring, and the prices of materials such as lithium carbonate have increased by more than 23% this year. In the future, the demand for batteries in all walks of life will continue to increase, and the current lithium-ion battery technology alone can not meet the needs of industry development.