Scientists develop new lithium battery compartment Stoba Material: Lithium battery temperature exceeds 130 degrees

Scientists develop new lithium battery compartment Stoba Material: Lithium battery temperature exceeds 130 degrees

For a long time, we have gradually got used to notebooks Laptop Battery , digital cameras, cell phones in the lithium battery, this battery work is fairly steady in the past. However, starting in 2007, the lithium-ion batteries overheating and explosion of fire and began to hit the newspapers, including Sony and several other major computer makers, including business also suffered, they had to recall their own laptop numerous products equipped with lithium batteries. Recently in Europe, Apple's iPhone and other mobile products, lithium batteries also began to overheat and catch fire or explosion, etc. failures.

To this end, scientists have developed a variety of other non-lithium type of battery products, such as claims to a stronger endurance Zinc Zinc-air batteries Fujitsu FPCBP80 Battery, etc., but these new technologies in order to enter a large-scale application stage also need a few years time, so Before that people need to develop a lithium battery to improve programs, such programs should be able to enhance the capacity of lithium battery life and significantly reduce the lithium-ion batteries overheating failure probability.

According to Reuters, a recent one by the Taiwan Industrial Technology Research Institute, researchers led by Alex Pang research team developed a new material called Stoba, this material will be used to make lithium battery positive and negative poles at the junction of Fujitsu FPCBP77 Battery interval structure, and lithium batteries in the internal short-circuit fault occurs, causing the battery temperature rises to 500 degrees after, there may occur caught fire and exploded. When the temperature of the battery after more than 130 degrees Celsius, this material will be absorbed by the porous structure of the normal state into a thin structure, and this can be completely isolated from the battery positive and negative poles, thereby preventing the battery temperature to rise further.

The researchers said that in lithium batteries by adding this new material, the battery will increase the production costs of around 2-3%, they plan to sell this material Fujitsu FPCBP68 Battery technology, notebook and mobile phone makers are expected to adopt this new material of lithium the battery will begin next year on sale.