Could we finally be close to having a solid-state battery? One small Massachusetts company claims that their new material may unlock this technology.
About Solid Power. Solid Power is an industry-leading developer of next-generation of all solid-state batteries. Our solid-state batteries provide a major improvement in energy density, safety, and reliability compared to the best Li-ion cells avaialble.
Here comes BMW up the battery backstretch! There’s a race on in the electric vehicle world. One where a solid-state battery awaits at the finish line instead of the traditional checkered flag.
Fisker's flexible solid state battery tech promises hands-free, one-minute recharging, and 500 miles of range, which would alter automotive landscape.
The race to develop and offer solid-state batteries in cars is heating up some more. Hyundai announced that it is investing in a company based in Massachusetts called Ionic Materials. The company ...
You're probably going to hear the words "solid-state batteries" being tossed around for the next few years. Heck, news from Honda has me typing those words out for the second time this week. Honda ...
Toyota, Nissan, Honda and Panasonic are just four of the heavyweight Japanese companies that have reportedly teamed up for a new research and development program to develop solid-state batteries.
Electric car maker Fisker has just announced a new patent on better batteries. The new patent is for a solid-state battery technology. The new type of battery promises more energy density than ...
A solid-state drive (SSD) is a solid-state storage device that uses integrated circuit assemblies as memory to store data persistently.It is also sometimes called solid-state disk, although SSDs do not have physical disks. SSDs may use traditional hard disk drive (HDD) form-factors and protocols such as SATA and SAS, greatly simplfying usage of SSDs in computers.
An in-depth historical and current review is presented on the science of lithium-ion battery (LIB) solid electrolyte interphase (SEI) formation on the graphite anode, including structure, morphology, composition, electrochemistry, and formation mechanism.