Department of Energy (DoE)

This diagram depicts the way a new surface treatment can improve the efficiency and longevity of perovskite materials for use in applications such as fuel-cell electrodes. Within the bulk of the material (bottom left) oxygen vacancies shown as “holes” are distributed throughout the material, and cause intense chemical reactivity. But on the surface, many of those vacancies get filled by oxygen...

Researchers find a way to extend life and improve performance of fuel cell electrodes

Surface treatment greatly reduces degradation of catalyst material.

June 13, 2016

Cody Dennett, PhD candidate in the Department of Nuclear Science and Engineering

Scrutinizing radiation’s impact

Nuclear science and engineering PhD student Cody Dennett simulates conditions inside reactors to measure microscopic defects in irradiated materials.

May 31, 2016

A new concept for a flow battery functions like an old hourglass or egg timer, with particles (in this case carried as a slurry) flowing through a narrow opening from one tank to another. The flow can then be reversed by turning the device over.

New concept turns battery technology upside-down

Pump-free design for flow battery could offer advantages in cost and simplicity.

May 25, 2016

A sample of the mineral perovskite is shown in the foreground, while behind it is an image the researchers used to prove the effects of intense light on a thin film of perovskite. Fluorescence imaging shows that areas that received more light became more purified, as revealed by brighter fluorescence from those regions.

Light can “heal” defects in some solar cells

Defects in some new electronic materials can be removed by making ions move under illumination.

May 24, 2016

While all research in traditional photovoltaics faces the same underlying theoretical limitations, MIT PhD student David Bierman says, “with solar thermal photovoltaics you have the possibility to exceed that.”

Hot new solar cell

System converts solar heat into usable light, increasing device’s overall efficiency.

May 23, 2016

A sample of a core-shell nanoparticle made by the researchers is shown in images made using scanning transmission electron microscope (STEM) and energy-dispersive x-ray spectroscopy (EDX). Color images show where the different elements are located in the particle, with the precious metals platinum (Pt) and ruthenium (Ru) concentrated in the shell, and the other constituents, tungsten (W), and tita...

New nanoparticle catalysts could reduce need for precious metals

Process from MIT provides improved reactivity with much less platinum.

May 19, 2016

Arrows indicate the spin direction in the ferromagnetic insulator (EuS, shown in red) and topological insulator (Bi2Se3, shown in blue) at the interface between the two materials.

Researchers find unexpected magnetic effect

Combining two thin-film materials yields surprising room-temperature magnetism.

May 9, 2016

Higher coal use in Asia could increase water stress

Aerosol emissions would slow warming but suppress rainfall.

April 28, 2016

Left to right: Michael Birk, Statoil-MIT Energy Fellow and research associate for the MIT Energy Inititative’s Utility of the Future; David Danielson, U.S. Department of Energy (DOE) assistant secretary for energy efficiency and renewable energy; Joyce Yang, former Department of Energy lab impact director; Johanna Wolfson, DOE energy efficiency and renewable energy tech-to-market director; Brian...

U.S. Department of Energy leaders highlight clean energy research, career opportunities

Sustainable transportation, grid modernization, building efficiency among topics at MIT Energy Initiative event with Department of Energy's David Danielson.

April 14, 2016

MIT senior research engineer Paul Woskov is exploring a millimeter-wave technology for drilling through rock.

Rock, drill bit, microwave: Paul Woskov explores a new path through the Earth’s crust

MIT's Plasma Science and Fusion Center proposes fusion technology to tap geothermal energy.

April 12, 2016

An artist’s rendering of nuclear fuel rods in front of a colorful computational valley predicted for alloying compositions.

How to make metal alloys that stand up to hydrogen

New approach to preventing embrittlement could be useful in nuclear reactors.

March 29, 2016

An artist’s rendering of a calcium liquid battery.

New chemistries found for liquid batteries

Grid-scale approach to rechargeable power storage gets new arsenal of possible materials.

March 22, 2016

A scanning electron micrograph of a nanocrystal superlattice shows long-range ordering over large domains.

Nanocrystal self-assembly sheds its secrets

A new approach gives a real-time look at how the complex structures form.

March 21, 2016

Innovation, Ernest Moniz said, is “the essence of America’s strength.”

Energy Secretary Ernest Moniz touts great opportunities in energy

New international agreement on “Mission Innovation” could lead to major progress on climate change.

March 4, 2016

The metal with carbon nanotubes uniformly dispersed inside “is designed to mitigate radiation damage” for long periods without degrading, Kang Pyo So says. Pictured is an example of how the researchers created aluminum with carbon nanotubes inside.

Carbon nanotubes improve metal’s longevity under radiation

Aluminum used in nuclear reactors and other harsh environments may last longer with new treatment.

March 2, 2016

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