Close Menu
  • Home
  • UNSUBSCRIBE
  • News
  • Lifestyle
  • Tech
  • Entertainment
  • Sports
  • Travel
Facebook X (Twitter) WhatsApp
Trending
  • New robotic heart mimics common, mysterious condition to help researchers study it
  • Canon EOS R6 III review: A wildlife wonder
  • Medieval babies and adults buried together in Sweden were not related, archaeologists discover — raising big questions about early Christian burial practices
  • NASA is creating a fifth state of matter on the ISS, thanks to an upgrade to a mini-fridge-sized quantum lab
  • New sodium metal battery design charges in just 4 minutes and retains its capacity for years
  • Quantum computing wielded to create extremely rare material critical to nuclear fusion
  • Scientists build tiny ‘diving suit’ for cockroaches, turning them into search-and-rescue cyborgs
  • Physicists develop the first working model of quantum mechanics using only ‘real’ numbers
Facebook X (Twitter) WhatsApp
Baynard Media
  • Home
  • UNSUBSCRIBE
  • News
  • Lifestyle
  • Tech
  • Entertainment
  • Sports
  • Travel
Baynard Media
Home»Lifestyle»Self-healing ‘concrete batteries’ now 10 times better — they could one day power cities, scientists say
Lifestyle

Self-healing ‘concrete batteries’ now 10 times better — they could one day power cities, scientists say

EditorBy EditorOctober 7, 2025No Comments4 Mins Read
Share Facebook Twitter Pinterest LinkedIn Tumblr Reddit Telegram Email
Share
Facebook Twitter LinkedIn Pinterest Email

MIT researchers have improved a new type of “concrete battery” by tenfold, paving the way for its use in turning buildings, bridges and sidewalks into giant energy stores capable of powering entire cities.

The material is called electron-conducting carbon concrete — or ec³ — and is made by combining cement, water, a common liquid electrolyte and an extremely fine carbon powder called nanoscale carbon black.

When mixed together, the ingredients create a dense, conductive network capable of carrying an electrical charge. Once set into concrete, the material and anything built from it (whether they’re buildings and bridges or pavements) is able to store and release energy as needed.


You may like

It’s a concept known as supercapacitive energy storage, and researchers hope it can offer a viable solution to one of renewable energy‘s biggest challenges: namely, how to store power locally when the sun isn’t shining or the wind isn’t blowing.

Related: Your household gadgets could soon be battery-free — scientists create tiny solar cells that can be powered by indoor light

In a new study published Sept. 29 in the journal Proceedings of the National Academy of Sciences (PNAS), researchers said they achieved a tenfold increase in the energy storage capacity of ec³ since 2023. Fivecubic meters (176.5 cubic feet) of the material can now store more than 10 kilowatt-hours of electricity — roughly enough to power a typical household for a day.

Just two years ago, achieving that level of storage would have required nine times the volume, the team said.

Get the world’s most fascinating discoveries delivered straight to your inbox.

“With these higher energy densities and demonstrated value across a broader application space, we now have a powerful and flexible tool that can help us address a wide range of persistent energy challenges,” lead author of the study Damian Stefaniuk, research scientist at MIT, said in a statement.

“One of our biggest motivations was to help enable the renewable energy transition. Solar power, for example, has come a long way in terms of efficiency. However, it can only generate power when there’s enough sunlight. So, the question becomes: How do you meet your energy needs at night, or on cloudy days?”

Building batteries

While ec³ doesn’t match the energy density of traditional battery technologies like lithium-ion (which pack hundreds of times more energy into the same weight or volume), the fact that it can be cast directly into building components and may last as long as the structure itself, without relying on scarce or toxic materials, makes it especially attractive to scientists.


You may like

The new performance boost came from a better understanding of the interaction between the carbon network inside the concrete and the electrolyte and from changes to how the material is made.

Rather than soaking slabs of the material in the electrolyte after it hardened, the researchers added the electrolyte directly to the water used in the initial mix. That enabled the production of thicker, more energy-dense slabs without compromising conductivity.

The team also tested different types of electrolytes, including seawater, and found several viable options. The best results came from a mix of quaternary ammonium salts — used in household disinfectants — and acetonitrile, a conductive solvent common in industrial processes.

Powering the block

Most exciting to the scientists was the realization that it only took small changes to how concrete is made to produce ec³. This potentially opens up huge opportunities in sustainable construction, where the material could be used to develop what the researchers dubbed “multifunctional concrete” that can store energy, absorb carbon dioxide from the atmosphere, and even repair itself.

The material has already been tested in Japan to heat sidewalks in snowy conditions, offering a potential alternative to road salt. The team is now working toward real-world applications, from homes that operate off-grid to parking spaces and roads that could one day charge electric vehicles.

“What excites us most is that we’ve taken a material as ancient as concrete and shown that it can do something entirely new,” study co-author James Weaver, associate professor of materials science and engineering at Cornell University, said in the statement.

“By combining modern nanoscience with an ancient building block of civilization, we’re opening a door to infrastructure that doesn’t just support our lives, it powers them.”

Source link

Share. Facebook Twitter Pinterest LinkedIn Tumblr Email
Previous ArticleCruz vows accountability for Nigerian Christian killings and violence
Next Article Video shows Gaza before and after two years of war
Editor
  • Website

Related Posts

Lifestyle

New robotic heart mimics common, mysterious condition to help researchers study it

July 11, 2026
Lifestyle

Canon EOS R6 III review: A wildlife wonder

July 10, 2026
Lifestyle

Medieval babies and adults buried together in Sweden were not related, archaeologists discover — raising big questions about early Christian burial practices

July 10, 2026
Add A Comment

Comments are closed.

Categories
  • Entertainment
  • Lifestyle
  • News
  • Sports
  • Tech
  • Travel
Recent Posts
  • New robotic heart mimics common, mysterious condition to help researchers study it
  • Canon EOS R6 III review: A wildlife wonder
  • Medieval babies and adults buried together in Sweden were not related, archaeologists discover — raising big questions about early Christian burial practices
  • NASA is creating a fifth state of matter on the ISS, thanks to an upgrade to a mini-fridge-sized quantum lab
  • New sodium metal battery design charges in just 4 minutes and retains its capacity for years
calendar
July 2026
M T W T F S S
 12345
6789101112
13141516171819
20212223242526
2728293031  
« Jun    
Recent Posts
  • New robotic heart mimics common, mysterious condition to help researchers study it
  • Canon EOS R6 III review: A wildlife wonder
  • Medieval babies and adults buried together in Sweden were not related, archaeologists discover — raising big questions about early Christian burial practices
About

Welcome to Baynard Media, your trusted source for a diverse range of news and insights. We are committed to delivering timely, reliable, and thought-provoking content that keeps you informed
and inspired

Categories
  • Entertainment
  • Lifestyle
  • News
  • Sports
  • Tech
  • Travel
Facebook X (Twitter) Pinterest WhatsApp
  • Contact Us
  • About Us
  • Privacy Policy
  • Disclaimer
  • UNSUBSCRIBE
© 2026 copyrights reserved

Type above and press Enter to search. Press Esc to cancel.