All India EVAll India EVAll India EV
Notification
Font ResizerAa
  • Home
  • EV News
  • EV Launch
  • Market Insights
  • Investments & Funding
  • Guest Articles
  • EV Engineering
  • Contact
Reading: Japanese Innovation: Manganese Battery Sets New Record
Share
All India EVAll India EV
Font ResizerAa
  • Home
  • EV News
  • EV Launch
  • Market Insights
  • Guest Articles
  • EV Engineering
  • Contact
Search
Follow US
Japanese Innovation: Manganese Battery Sets New Record
Home » Blog » Japanese Innovation: Manganese Battery Sets New Record
Market Insights

Japanese Innovation: Manganese Battery Sets New Record

Ankit Sharma
By
Ankit Sharma
ByAnkit Sharma
Follow:
Last updated: 28 August 2024
Share
3 Min Read
SHARE
Japanese Innovation: Manganese Battery Sets New Record

Japanese Innovation: Manganese Battery Sets New Record

Researchers in Japan from Yokohama National University have recently taken a large step forward in the ongoing search for electric vehicle (EV) batteries that are somewhat more sustainable and somewhat more efficient. Their battery that uses manganese in the anode is characterized by exceptionally high energy density. This discovery holds promise as a traditional batteries that use nickel and cobalt related to both cost and environmental challenges.

A Monoclinic Marvel: Enhancing LiMnO2 Batteries

Yokohama National University researchers have revealed a key to enhance the performance of LiMnO2 batteries. By employing modern X-ray diffraction, scanning electron microscopy, and electrochemical techniques to analyze the material’s structure and performance, a team led by Naoaki Yabuuchi showed that a monoclinic layered domain is an essential feature to kick off a structural transition to a spinel-like phase which greatly enhances the performance of the LiMnO2 electrode.

The monoclinic system—a crystalline structure—functions as a catalyst. Which is done to initiate the phase transition while improving the overall performance of the electrode. LiMnO2 electrodes in the former phase before the transition display poor performance.

With this knowledge, Yabuuchi’s team was able to create a convenient solid-state method to directly synthesize nanostructured LiMnO2 that contains the monoclinic layered domain structures of high surface area. This novel method is not only convenient, but also eliminates the need for another manufacturing step, and is a less expensive way to manufacture high-performance LiMnO2 electrodes.

A Manganese Milestone: A New Era for EV Batteries

Researchers from Yokohama National University have reached a milestone in battery technology. However, the LiMnO2-based battery has exceeded performance expectations, outcompeting nickel-based batteries in energy density. It has an energy density of 820 watt-hours per kilogram (Wh/kg) as compared to 750 wh/kg of nickel-based batteries and 500 Wh/kg of traditional lithium-based batteries.

More EV News

How to Increase the Battery Life of Your EV: A DIY Guide
How to Increase the Battery Life of Your EV: A DIY Guide
Top 6 Upcoming Electric SUVs To Hit Indian Roads In 2024
Navigating the Electric 2-Wheeler Landscape in India
EV Charging Stations Manufacturers in India
Electric Vehicle Adoption: Contrasting Urban and Rural India

A promising benchmark of this study was the draining of voltage decay. This differs from other electrodes that use manganese, as the LiMnO2 electrode showed little voltage decay. Manganese dissolution is still a concern, which the researchers are aware of. What they ultimately want to do is use a highly concentrated electrolyte solution and lithium phosphate coating to minimize the chances of manganese loss.

The researchers are confident that their research is ushering in a new generation of competitive EV battery cells. Also, their technology represents a sustainable and environmentally friendly change in the battery landscape. The researchers are excited and looking forwards to accompany the transition to commercialization in the EV space.

Join All India EV Community

Click here for more such EV Updates

Unveiling Battery Tech's Impact on Electric Vehicle Design & Weight
Unveiling Battery Tech’s Impact on Electric Vehicle Design & Weight
OMCs add 10,000+ EV charging stations in FY25
AI and Software Reshape the Future of Mobility in India
How battery architecture is changing, from modules to cell-to-body
Lithium Battery Testing Requirements in India
TAGGED:batteryManganese Battery

Sign Up For Daily Newsletter

Be keep up! Get the latest breaking news delivered straight to your inbox.
Loading
By signing up, you agree to our Terms of Use and acknowledge the data practices in our Privacy Policy. You may unsubscribe at any time.
Share This Article
Facebook Whatsapp Whatsapp LinkedIn Copy Link Print
Leave a Comment

Leave a Reply Cancel reply

Your email address will not be published. Required fields are marked *

Follow US
XFollow
InstagramFollow
YoutubeSubscribe
LinkedInFollow
UP EV Charger Subsidy under VGF Step-by-step process
8 July 2026
Revolt Motors unveils RVX electric motorcycle priced at ₹1.24 lakh
Revolt Motors unveils RVX electric motorcycle priced at ₹1.24 lakh
6 July 2026
uantum Energy partners with Hero FinCorp to enable easy financing for electric scooters
Quantum Energy partners with Hero FinCorp to enable easy financing for electric scooters
6 July 2026
All India EV: Edition 51
What all happened in June 2026?
Click Here
All India EV Footer
All India EV
India's EV Industry Desk

All India EV is a media, market research and market intelligence platform tracking the companies, technologies, capital and market shifts shaping India's electric mobility ecosystem.

News Categories

  • EV News
  • EV Launch
  • Market Insights
  • Investments & Funding
  • EV Engineering
  • Guest Articles

Follow the Network

Instagram Follow daily EV updates LinkedIn Join the industry conversation WhatsApp Join the AIEV community

Contact the Desk

Business & Editorial
business@allindiaev.com
Website
www.allindiaev.com
Based In
New Delhi, India

© 2026 All India EV. All rights reserved.

Aware Educate Promote

Welcome Back!

Sign in to your account

Username or Email Address
Password

Lost your password?