Energy storage

Large anions with long tails (blue) in ionic liquids can make them self-assemble into sandwich-like bilayer structures on electrode surfaces. Ionic liquids with such structures have much improved energy storage capabilities.

New type of electrolyte could enhance supercapacitor performance

Novel class of “ionic liquids” may store more energy than conventional electrolytes — with less risk of catching fire.

August 12, 2019

Molecular diagram shows the structure of molybdenum sulfide, one of the materials used to create the new kind of cathode for lithium-sulfur batteries.

New approach could boost energy capacity of lithium batteries

“Hybrid” cathodes could provide more power for a given weight and volume.

March 25, 2019

Associate Professor Asegun Henry is researching how to use superheated metals like molten tin to store heat from a concentrated solar power system, so it can be used to generate electricity as needed.

Tackling greenhouse gases

Faculty in the Department of Mechanical Engineering are developing technologies that store, capture, convert, and minimize greenhouse gas emissions.

January 7, 2019

Left to right: Graduate student Cédric Viry, Professor Jeffrey Grossman, and postdoc Grace Han, along with their collaborators, are using specially designed “photoswitching” molecules to control the release of heat from materials used to store thermal energy in devices ranging from solar concentrators and solar cookers to heated seats in vehicles.

Saving heat until you need it

A new concept for thermal energy storage involves a material that absorbs heat as it melts and releases it as it resolidifies — but only when triggered by light.

December 19, 2018

Yoel Fink, CEO of AFFOA, holds up a fabric with optical communications capabilities during a presentation on what he calls “fabrics as a service” at the annual MIT Industrial Liaison Program (ILP) Research and Development Conference on Nov. 15.

Opportunities for materials innovation abound

Faculty researchers share insights into new capabilities at the annual Industrial Liaison Program Research and Development Conference.

December 14, 2018

MIT researchers propose a concept for a renewable storage system, pictured here, that would store solar and wind energy in the form of white-hot liquid silicon, stored in heavily insulated tanks.

“Sun in a box” would store renewable energy for the grid

Design for system that provides solar- or wind-generated power on demand should be cheaper than other leading options.

December 5, 2018

Researchers demonstrating the ability of aluminum to repel oil underwater.

Extending the life of low-cost, compact, lightweight batteries

New design could greatly extend the shelf life of single-use metal-air batteries for electric vehicles, off-grid storage, and other applications.

November 8, 2018

Cadenza Innovation Founder and CEO Christina Lampe-Onnerud at the World Economic Forum’s Annual Meeting of the New Champions

A novel way to advance a better battery design

Led by “Queen of Batteries” Christina Lampe-Onnerud, Cadenza Innovation is licensing its lithium ion battery cell architecture to manufacturers around the world.

November 7, 2018

Diagram illustrates the crystal lattice of a proposed battery electrolyte material called Li3PO4. The researchers found that measuring how vibrations of sound move through the lattice could reveal how well ions – electrically charged atoms or molecules – could travel through the solid material, and therefore how they would work in a real battery. In this diagram, the purple pyramid-like shapes...

A new way to find better battery materials

Design principles could point to better electrolytes for next-generation lithium batteries.

March 25, 2018

Jennifer Rupp's current ceramics research applications range from battery-based storage for renewable energy, to energy-harvesting systems, to devices used to store data during computation.

Jennifer Rupp: Engineering practical ceramics

Assistant professor in EECS is developing materials with novel structures and useful applications, including renewable energy and information storage.

February 9, 2018

Soon-to-be assistant professor Jing Li’s training in economics allows her to examine each step as a clean energy technology progresses from the lab to the marketplace.

Jing Li: Applying economics to energy technology

Soon-to-be assistant professor of applied economics focuses on development and deployment solutions that can help the world move to a low-carbon future.

January 30, 2018

A type of battery first invented nearly five decades ago could catapult to the forefront of energy storage technologies, thanks to a new finding by researchers at MIT.

A new approach to rechargeable batteries

New metal-mesh membrane could solve longstanding problems and lead to inexpensive power storage.

January 22, 2018

Evelyn Wang (left) and Heena Mutha have developed a nondestructive method of quantifying the detailed characteristics of carbon nanotube samples — a valuable tool for optimizing these materials for use as electrodes in a variety of practical devices.

Optimizing carbon nanotube electrodes

New model measures characteristics of carbon nanotube structures for energy storage and water desalination applications.

January 5, 2018

MIT assistant professor of materials science and engineering Jennifer Rupp (center) receives BASF and Volkswagen's Science Award Electrochemistry at Karlsruhe Institute of Technology in Germany. Posing at the award ceremony are Rupp are: (l-r) Volkswagen AG Research and Development Group Head Ulrich Eichhorn, Catalytic Innovations founder and CEO Stafford Sheehan (who received a special prize for ...

Jennifer Rupp wins international electrochemistry prize

Assistant professor is honored for her work on energy storage systems and safer, solid-state lithium electrolyte batteries.

December 22, 2017

MIT postdoc, Grace Han, handles a new chemical composite that could provide an alternative to fuel by functioning as a kind of thermal battery.

A new way to store thermal energy

MIT researchers create material for a chemical heat “battery” that could release its energy on demand.

November 16, 2017

MIT News | Massachusetts Institute of Technology

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