News

Nissan Licenses Lithium-ion Battery Technology to APB Corporation

Nissan has licensed an advanced technology to APB Corporation that will allow mass production of lower-cost, safer lithium-ion batteries with increased charging capacity. Backed by investment from major companies, Tokyo-based APB plans to build a factory in Japan that will use Nissan’s technology to make all-polymer batteries for storage use.

All-polymer batteries are said to be the next generation of lithium-ion batteries. Nissan’s technology, known as bipolar structure all-polymer battery technology, will help consumers and communities to more effectively using low-cost or renewable energy at a lower initial cost.

“We believe the widespread adoption of this technology will contribute to fulfilling the UN’s sustainable development goals and help realize a sustainable, low-carbon society,” said Hideki Kimata, vice president of the corporate strategy and business development division at Nissan.

Nissan began researching and developing lithium-ion batteries in the early 1990s. In 1997, the firm launched the Prairie Joy EV and became a pioneer in installing lithium-ion batteries in commercial electric cars. Since then, it has continued to research core technologies and pursue innovation in the field of EV batteries.

In an all-polymer battery with a bipolar structure, the liquid electrolyte and metal electrodes used in conventional batteries are replaced with polymers. The front and back of the battery cell are made of a polymer current collector. The front and back each have a negative or positive polarity and forms part of the battery case. By stacking a number of these cells together, an assembled battery with a bipolar structure is created. The technology increases charging capacity relative to battery volume, while also enhancing safety by replacing liquid electrolytes with polymers. The simplified structure also lowers cost.

Mainstream use of stationary batteries with this technology will help individual customers make effective use of low-cost electricity, such as renewable energy from solar panels or electricity purchased from the grid during off-peak hours, with a smaller initial investment. As a result, local communities can limit electricity use during peak hours and use power in a more stable and efficient manner. This reduces the risk of blackouts due to disasters or technical failures and can contribute to a safer, cleaner energy supply.

Source: saurenergy.com

I am Renew

Recent Posts

BASF, Shenergy Group join forces for biomethane commercialisation

Global chemicals and bioenergy major BASF has announced to have signed an MoU with China’s…

11 hours ago

Rajputana Biodiesel set for inaugural IPO on November 26

Rajputana Biodiesel is set to debut in the capital market on November 26 as the…

15 hours ago

SECI, H2Global Stiftung collaborate to promote Green Hydrogen initiatives

The Solar Energy Corporation of India Ltd (SECI) has signed an MoU with H2Global Stiftung…

16 hours ago

Pilibhit’s Kisan Co-op Sugar Mill to begin ethanol production

Uttar Pradesh is making strides in the bioenergy and taking the decarbonisation quest of the…

17 hours ago

Deepak Agrawal is new Managing Director of GPS Renewables’ project development firm ARYA

Bengaluru-headquartered biogas EPC firm GPS Renewables has announced that it has appointed Deepak Agarwal as…

17 hours ago

Seawater-to-green hydrogen: NTPC to set up unique project near Vishakhapatnam

In a key development to further the green hydrogen movement in the country, NETRA, the…

3 days ago