Energy

MIT Assistant Professor Betar Gallant (left) and graduate student Aliza Khurram are developing a novel battery that could both capture carbon dioxide in power plant exhaust and convert it to a solid ready for safe disposal.

Removing carbon dioxide from power plant exhaust

MIT researchers are developing a battery that could both capture carbon dioxide in power plant exhaust and convert it to a solid ready for safe disposal.

July 29, 2019

"I've been interested in advanced reactors for a long time, so it's been really nice to stay with this project and learn from people working here on site," says Kieran Dolan.

A vision of nuclear energy buoyed by molten salt

NSE graduate student Kieran Dolan tackles a critical technical challenge to fluoride-salt-cooled high-temperature nuclear reactors.

July 24, 2019

MIT Associate Professor Jennifer Rupp stands in front of a pulsed laser deposition chamber, in which her team developed a new lithium garnet electrolyte material with the fastest reported ionic conductivity of its type. The technique produces a thin film about 330 nanometers thick. “Having the lithium electrolyte as a solid-state very fast conductor allows you to dream out loud of anything else ...

Enriching solid-state batteries

MIT researchers demonstrate a method to make a smaller, safer, and faster lithium-rich ceramic electrolyte.

July 11, 2019

Coal-fired electric plant, Henan Province, China

Pathways to a low-carbon China

Study projects a key role for carbon capture and storage.

July 8, 2019

Omer Tanovic says that his engineering background has taught him never to lose sight of the intended applications of his work, or the practical parameters for implementation.

Making wireless communication more energy efficient

Along with studying theory, "it's also important to me that the work we are doing will help to solve real-world problems,” says LIDS student Omer Tanovic.

July 3, 2019

Diagram depicts the process of “singlet fission,” which is the first step toward producing two electrons from a single incoming photon of light.

Experiments show dramatic increase in solar cell output

Method for collecting two electrons from each photon could break through theoretical solar-cell efficiency limit.

July 3, 2019

“Really the most exciting thing for me is watching my students ask good questions, problem-solve, and then do something spectacular with what they’ve learned,” says Professor Catherine Drennan.

For Catherine Drennan, teaching and research are complementary passions

Professor of biology and chemistry is catalyzing new approaches in research and education to meet the climate challenge.

June 26, 2019

Greentown Labs is the largest clean technology incubator in North America by both square feet and the number of member companies. The open layout of its entrance, shown here, is designed to host events and encourage collaboration.

How Greentown Labs became the epicenter of clean tech

The incubator’s winding journey to success helped its startup community grow closer while addressing environmental challenges.

June 25, 2019

$Diagram depicts the sequence of steps used in the new streamlined process to synthesize perovskite-based materials, deposit them on a substrate to create a thin film, and then analyze the film’s characteristics using X-ray diffraction and other observational methods. The new process is about ten times faster than previous methods.$

How to speed up the discovery of new solar cell materials

Streamlined system for creating and analyzing perovskite compounds may cut development time from 20 years to two.

June 5, 2019

MIT grad student Steven Gonzalez is showing that the cloud is neither distant nor ephemeral: It’s a massive system, ubiquitous in daily life, that contains huge amounts of energy, has the potential for environmental disaster, and is operated by an insular community of expert technicians.

Communities in the cloud

PhD student Steven Gonzalez studies cloud computing with the eye of an anthropologist.

June 5, 2019

Chip design drastically reduces energy needed to compute with light

Simulations suggest photonic chip could run optical neural networks 10 million times more efficiently than its electrical counterparts.

June 5, 2019

Yet-Ming Chiang, Kyocera Professor, Department of Materials Science and Engineering

3Q: Yet-Ming Chiang on reopening the case of cold fusion

The materials science and engineering professor is part of a multi-institution effort to investigate the possibility of cold fusion in a scientifically rigorous way.

May 27, 2019

Cross sections of pressure profiles are shown in two different tokamak plasma configurations (the center of the tokamak doughnut is to the left of these). The discharges have high pressure in the core (yellow) that decreases to low pressure (blue) at the edge. Researchers achieved substantial high-pressure operation of reverse-D plasmas at the DIII-D National Fusion Facility.

Steering fusion’s “D-turn”

Research scientist Alessandro Marinoni shows that reversing traditional plasma shaping provides greater stability for fusion reactions.

May 17, 2019

Acoustic wells chief operating officer Charles-Henri Clerget (sixth from left), chief executive officer Sebastien Mannai SM ’14 PhD ’18 (sixth from right), and chief technology officer Louis Creteur (fifth from right) pose with judges and organizers after winning Wednesday’s $100K Entrepreneurship Competition.

Solution for remotely monitoring oil wells wins MIT $100K

MIT startup Acoustic Wells earned the grand prize at the annual entrepreneurship competition.

May 17, 2019

The MIT Materials Research Science and Engineering Center hosted 26 Boston-area high school girls for a solar cell building activity during the Science, Engineering, and Technology (SET) in the City program. The girls measured the voltage and current output of their cells with a multimeter.

Local high school girls build dye-sensitized solar cells at MIT

MRL Materials Research Science and Engineering Center encourages studies in science, engineering, and technology.

May 13, 2019

MIT News | Massachusetts Institute of Technology

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Removing carbon dioxide from power plant exhaust

A vision of nuclear energy buoyed by molten salt

Enriching solid-state batteries

Pathways to a low-carbon China

Making wireless communication more energy efficient

Experiments show dramatic increase in solar cell output

For Catherine Drennan, teaching and research are complementary passions

How Greentown Labs became the epicenter of clean tech

How to speed up the discovery of new solar cell materials

Communities in the cloud

Chip design drastically reduces energy needed to compute with light

3Q: Yet-Ming Chiang on reopening the case of cold fusion

Steering fusion’s “D-turn”

Solution for remotely monitoring oil wells wins MIT $100K

Local high school girls build dye-sensitized solar cells at MIT

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