• Menu
  • Skip to primary navigation
  • Skip to secondary navigation
  • Skip to main content
  • Skip to primary sidebar

Green Energy Chronicles

What you should know about alternative energy.

  • Home
  • Wind
  • Solar
  • Hydro
  • Environment
  • Terms of Use
  • Privacy Policy
  • Solar
  • Environment
  • Wind
  • Hydro
  • Home
  • Wind
  • Solar
  • Hydro
  • Environment

24M’s Batteries Could Better Harness Wind and Solar Power

June 20, 2016 //  by Timothy E.

(www.technologyreview.com)

Lithium-ion batteries power everything from smartphones to electric vehicles. They’re well suited to the job because they are smaller and lighter, charge faster, and last longer than other batteries. But they are also complex and thus costly to make, which has stymied mass adoption of electric transportation and large-scale energy storage.

Yet-Ming Chiang thinks his startup 24M has the answer. The key is a semisolid electrode. In a conventional lithium–ion battery, many thin layers of electrodes are stacked or rolled together to produce a cell. “Lithium-ion batteries are the only product I know of besides baklava where you stack so many thin layers to build up volume,” says Chiang, who is a cofounder and chief scientist at 24M as well as a professor of materials science at MIT. “Our goal is to make a lithium-ion battery through the simplest process possible.”

Chiang’s innovation, which was developed in his MIT lab, is an electrode formed by mixing powders with a liquid electrolyte to make a gooey slurry. The design enables 24M to increase the amount of energy-storing material in a battery and give it 15 to 25 percent more capacity than conventional lithium-ion batteries of the same size.

The new design is also faster and cheaper to make. Typical large factories for making lithium-ion batteries cost about $100 million to build, in part because specialized machines are needed to coat, dry, cut, and compress the electrode film. Since its semisolid electrode doesn’t require these steps, 24M says, its batteries could be produced in one-fifth the time and in much smaller plants.
If its technology succeeds, 24M could be among the first companies to reduce the cost of lithium-ion battery cells to less than $100 per kilowatt-hour, from $200 to $250 today. That is the point at which electric cars could compete on cost with internal-combustion vehicles.

To hit that target by 2020, 24M must scale up from its existing pilot manufacturing line in Cambridge, Massachusetts, to high-volume fabrication. The company plans to build a factory in 2017, probably in partnership with a large industrial company, and launch its first product in early 2018. It hopes utilities will buy its batteries to store electricity from wind and solar farms and deliver power during peak-demand hours.

The company is also talking to electric–vehicle makers, but it considers EVs a secondary focus. It’s understandable that Chiang would tread carefully in that market. A123 Systems, a battery company he cofounded, filed for bankruptcy protection in 2012 after spending too much money building big battery plants to supply carmakers. In contrast, Chiang says, 24M’s manufacturing technologies are designed to be modular and more efficiently scaled up if necessary.

Category: Solar

Previous Post: « Advocates Say Solar Power May Dim The Future Of Utility Monopolies
Next Post: Illinois Tech grows smart farm that will grab solar power, water itself »

Primary Sidebar

Categories

  • Environment
  • Hydro
  • Solar
  • Uncategorized
  • Wind

Featured Posts

My Solar Home

Middle-Class Families Are Set To Receive Solar Panels With No Upfront Costs In The U.S.

April 28, 2019 By //  by Timothy E.

Nearly 300 low-income D.C. residents to get solar panels on their homes

July 28, 2017 By //  by Timothy E.

Asian Development Bank Invests $57.7 Million To Develop Renewable Energy In Southeast Asia

July 20, 2017 By //  by Timothy E.

Richard Branson: Give Coal Miners Clean Energy Jobs

July 20, 2017 By //  by Timothy E.

Chinese province runs on 100% renewable energy for a week to test whether grid can cope

July 19, 2017 By //  by Timothy E.

  • Terms of Use
  • Privacy Policy
  • Solar
  • Environment
  • Wind
  • Hydro

Copyright © 2021