Nissan has teamed up with NASA to create a prototype EV that features a solid-state battery. This solid-state battery will be capable of charging much more quickly than a regular lithium-ion battery. Additionally, solid-state batteries can hold a much greater energy capacity for their size.
Nissan stated that it will develop an EV that features these solid-state batteries by 2028. These EVs will use solid-state batteries that cost as low as $75 kWh, meaning the automaker will be able to sell the vehicles for comparable prices to gas-powered models. This would remove one of the largest barriers to sustainable transportation, as many consumers simply do not drive an electric vehicle because of the large capital required at the initial purchase.
Collaborative EV Batteries
Nissan and NASA Are Developing a 15-Minute-Charging Solid-State Battery
Trend Themes
1. Collaborative EV Batteries - Collaboration between Nissan and NASA to develop a 15-minute charging solid-state battery for EVs, unlocking new capabilities for electric vehicle technology.
2. Solid-state Battery Advancements - The technological advancement of EV batteries through the implementation of solid-state batteries, allowing for faster charging times and greater energy capacities.
3. Accessible Evs - The development of affordable EVs through decreased battery costs and improved charging technology, making electric transportation more accessible to consumers.
Industry Implications
1. Electric Vehicle Manufacturing - Opportunities for car manufacturers to develop and implement solid-state batteries in EVs, disrupting the traditional lithium-ion battery model and creating more efficient electric transport options.
2. Energy Storage Development - Opportunities in the energy sector to develop and utilize solid-state batteries for improved energy storage capabilities, opening up new opportunities for renewable energy and sustainability.
3. Charging Station Infrastructure - Opportunities for companies to invest in the development and implementation of charging stations optimized for the faster charging capabilities of solid-state batteries, improving the convenience and accessibility of electric transportation.