Materials Science and Engineering

MIT materials science graduate student Wesley T. Hong in the lab.

Transition metal oxide catalysts

Hong works to map dynamic oxidation reactions

July 24, 2013

Kelsey Stoerzinger at hood where she conducts experiments on electrolytic catalysts in water-based solutions.

Maximizing oxygen reduction

Kelsey Stoerzinger identifies highest manganese activity.

July 19, 2013

Finding the keys to boiling heat transfer

Understanding the properties that control surface dissipation of heat could lead to improved power plants and electronics with high heat-transfer rates.

July 16, 2013

The MIT team found that an effective solar cell could be made from a stack of two one-molecule-thick materials: Graphene (a one-atom-thick sheet of carbon atoms, shown at bottom in blue) and molybdenum disulfide (above, with molybdenum atoms shown in red and sulfur in yellow). The two sheets together are thousands of times thinner than conventional silicon solar cells.

Solar power heads in a new direction: thinner

Atom-thick photovoltaic sheets could pack hundreds of times more power per weight than conventional solar cells.

June 26, 2013

Surprising turns in magnetic thin films could lead to better data storage

MIT researchers discover efficient control of magnetism in chiral ferromagnets.

June 18, 2013

Holding the salt

MIT graduate student David Cohen-Tanugi works to improve water filtration, desalination.

June 17, 2013

Patrick A. Kearney, DMSE instructor, dies at 81

Known for his dedication to students

June 12, 2013

NSE’s Ballinger appointed to NRC committee

Ronald Ballinger named to Nuclear Regulatory Commission's Advisory Committee on Reactor Safeguards

June 11, 2013

Angela Belcher, the W.M. Keck Professor of Energy at MIT.

Angela Belcher wins $500,000 Lemelson-MIT Prize

MIT professor honored for her innovations that take cues, and materials, from nature to tackle key societal issues.

June 4, 2013

Pixelanted image of the MIT Dome in red on a blue background with the left-hand portion of the image also in red

An electrical switch for magnetism

MIT researchers develop a new approach to controlling the motion of magnetic domains; work could lead to low-power computer memory.

May 29, 2013

Solving a semiconductor riddle

New observations of material disprove leading theory about LED brightness, opening new avenues for research.

May 24, 2013

MIT graduate researchers Robert Mitchell and Betar Gallant connect a Li-air battery used to prepare the samples for in-situ Transmission Electron Microscope (TEM) characterization.

Research update: Team observes real-time charging of a lithium-air battery

Imaging reveals what happens during charging; could lead to improved batteries for electric cars.

May 13, 2013

(From left): Donald Sadoway and Antoine Allanore

One order of steel; hold the greenhouse gases

Steelmaking, a major emitter of climate-altering gases, could be transformed by a new process developed at MIT.

May 8, 2013

MIT's Killian Court, with Great Dome in the background

Five from MIT win Early Career Awards

Alexander-Katz, Detmold, Fu, Tisdale and Williams honored by Office of Science of the Department of Energy.

May 8, 2013

The MIT team used a scanning tunneling microscope (STM) to study the electrical activity of a superlattice material composed of two different compounds of the elements strontium, lanthanum and cobalt. At bottom, a diagram of how they "sliced" the material on an angle to expose wider bands of the thin layers of material. The center two images show the resulting measurements of the surface topograph...

Unleashing oxygen

‘Superlattice’ structure could give a huge boost to oxygen reaction in fuel cells, increasing their power potential.

April 30, 2013

MIT News | Massachusetts Institute of Technology

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