Energy

An MIT-invented circuit uses only a nanometer-wide “magnetic domain wall” to modulate the phase and magnitude of a spin wave, which could enable practical magnetic-based computing — using little to no electricity.

Toward more efficient computing, with magnetic waves

Circuit design offers a path to “spintronic” devices that use little electricity and generate practically no heat.

November 28, 2019

MITEI’s "Insights into Future Mobility" report highlights the importance of near-term action to ensure the long-term sustainability of personal mobility.

MIT Energy Initiative report charts pathways for sustainable personal transportation

Technological innovations, policies, and behavioral changes will all be needed to reach Paris climate agreement targets.

November 19, 2019

A new shoebox-sized laser produces terahertz waves (green squiggles) by using a special infrared laser (red) to rotate molecules of nitrous oxide, or laughing gas, packed in a pen-sized cavity (grey).

Researchers generate terahertz laser with laughing gas

Device may enable “T-ray vision” and better wireless communication.

November 14, 2019

Kate Brown is a professor in MIT's Program in Science, Technology, and Society.

Historian of the hinterlands

In overlooked spots on the map, MIT Professor Kate Brown examines the turbulence of the modern world.

November 12, 2019

“We’d like to have an impact with the course on the greater debate about the use of nuclear energy as part of the solution for climate change,” says Professor Jacopo Buongiorno.

Enhanced nuclear energy online class aims to inform and inspire

Revamped version of MITx MOOC includes new modules on nuclear security, nuclear proliferation, and quantum engineering.

October 24, 2019

MIT researchers detect a single quantum vibration within a diamond sample (shown here) at room temperature.

Scientists observe a single quantum vibration under ordinary conditions

Studying a common material at room temperature, researchers bring quantum behavior “closer to our daily life.”

October 6, 2019

President Reif speaks at MIT Climate Symposium

October 2, 2019

Solstice works with solar developers to fund large, remote solar farms that communities can invest in.

Helping lower-income households reap the benefits of solar energy

Solstice makes community solar projects more accessible for people unable to invest in rooftop panels.

September 26, 2019

Greener and fairer: Balancing pollution, energy prices, and household income

New research looks at how environmental taxes can work for everyone, in Spain and beyond.

September 25, 2019

Bridging the information gap in solar energy

PhD student Elise Harrington studies the ways rural communities in Kenya and India learn about solar energy products and their options as consumers.

September 19, 2019

A new study shows that replacing new solar panels after just 10 or 15 years, using the existing mountings and control systems, can make economic sense, contrary to industry expectations that a 25-year lifetime is necessary.

Study: Even short-lived solar panels can be economically viable

Research shows that, contrary to accepted rule of thumb, a 10- or 15-year lifetime can be good enough.

September 19, 2019

PJ Hernandez (left) and Jackson Gray (right) build circuits in the lab of Professor James Kirtley (background) as part of their summer energy UROP. One of the problems they worked on together was how to develop an improved cell voltage balancer, a device used to extend the life of batteries by working to ensure that cells remain evenly charged as the battery cycles.

Collaboration adds an extra dimension to undergraduate research

Students on UROP teams agree that teamwork speeds up the research.

September 18, 2019

Cody Friesen is the winner of the 2019 Lemelson-MIT Prize for invention.

Cody Friesen PhD ’04 awarded $500,000 Lemelson-MIT Prize

Materials scientist recognized for social, economic, and environmentally-sustaining inventions that impact millions of people around the world.

September 18, 2019

In a demonstration of the basic chemical reactions used in the new process, electrolysis takes place in neutral water. Dyes show how acid (pink) and base (purple) are produced at the positive and negative electrodes. A variation of this process can be used to convert calcium carbonate (CaCO3) into calcium hydroxide (Ca(OH)2), which can then be used to make Portland cement without producing any gre...

New approach suggests path to emissions-free cement

MIT researchers find a way to eliminate carbon emissions from cement production — a major global source of greenhouse gases.

September 16, 2019

"Whether they select advanced reactors or fusion reactors, utilities, policy, or advocacy, our students could move the industry beyond the 1960s,” says MIT Professor Michael Short. “They could give new meaning and substance to the department’s motto, ‘science, systems and society.’”

Department of Nuclear Science and Engineering spreads its wings

New 22-ENG undergraduate degree provides expansive vision of nuclear studies and nuclear careers.

September 13, 2019

MIT News | Massachusetts Institute of Technology

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