Materials science and engineering

A visualization of the broad-spectrum solar energy funnel.

Funneling the sun’s energy

MIT engineers propose a new way of harnessing photons for electricity, with the potential for capturing a wider spectrum of solar energy.

November 25, 2012

Shannon Taylor holds up an ingot, which is 30 percent by weight copper and 70 percent by weight silver, which is similar composition to some artifacts she studies.

The mysteries in materials

MIT senior Shannon Taylor researches 500-year-old artifacts and art to understand and restore materials.

October 24, 2012

MIT chemists designed a new type of pencil lead consisting of carbon nanotubes, allowing them to draw carbon nanotube sensors onto sheets of paper.

Drawing a line, with carbon nanotubes

New low-cost, durable carbon nanotube sensors can be etched with mechanical pencils.

October 9, 2012

Diagram shows the flat-sheet structure of the material used by the MIT team, molybdenum disulfide. Molybdenum atoms are shown in teal, and sulfur atoms in yellow.

One-molecule-thick material has big advantages

MIT researchers produce complex electronic circuits from molybdenum disulfide, a material that could have many more applications.

August 23, 2012

An image (made with Raman spectroscopy) of a graphene layer on top of a patterned substrate shows the difference in chemical reactivity of the side opposite the substrate. The wide red stripe is an area over a silicon dioxide substrate, making the top surface of the graphene highly reactive. The narrow blue stripe is graphene over a layer of hydrocarbon (called OTS), and there is almost no reactiv...

Graphene’s behavior depends on where it sits

New findings show that the material beneath the thin carbon sheets determines how they react chemically and electrically.

August 13, 2012

This illustration shows how a molten fiber, because of a phenomenon known as Rayleigh instability, naturally breaks up into spherical droplets. Researchers from MIT and UCF have figured out how to use this natural tendency as a way to make large quantities of perfectly uniform particles, which can have quite complex structures.

Dripping faucets inspire new way of creating structured particles

Researchers find new method for making spherical particles, from nanoscale to pinhead-sized — including complex beach-ball-like shapes.

July 18, 2012

Illustration of a sheet of graphene with a bunch of other molecules floating on either side

A new approach to water desalination

Graphene sheets with precisely controlled pores have potential to purify water more efficiently than existing methods.

July 2, 2012

An atomic-force microscope image of a layer of single-walled carbon nanotubes deposited on a silicon surface, as the first step in manufacturing the new type of solar cell developed by an MIT team. Individual nanotubes can be seen in the image.

All-carbon solar cell harnesses infrared light

New type of photovoltaic device harnesses heat radiation that most solar cells ignore.

June 21, 2012

Portrait photo of Jing Kong in an office with window blinds closed behind her

In search of new ways of producing nano-materials

Jing Kong’s research focuses on how to make and control novel forms of thin-film carbon.

May 9, 2012

PhD candidate Shuang Tang, left, and Institute Professor Mildred Dresselhaus

New material shares many of graphene’s unusual properties

Thin films of bismuth-antimony have potential for new semiconductor chips, thermoelectric devices.

April 24, 2012

Taking an innovative approach to battery design

Donald Sadoway’s radical rethinking of electricity storage could revitalize renewable-power technologies.

April 23, 2012

Clarice Aiello: Finding quantum gold in diamond’s defect

April 20, 2012

A block of a gas hydrate (methane clathrate) recovered from seafloor sediments off the Oregon coast.

New method to prevent undersea ice clogs

Surface coatings developed by MIT researchers could inhibit buildup of methane hydrates that can block deep-sea oil and gas wells.

April 12, 2012

Nanowires fabricated using the new techniques developed by Silvija Gradečak and her team can have varying widths, profiles and composition along their lengths, as illustrated here, where different colors are used to indicate compositional variations.

A new twist on nanowires

Technology developed at MIT can control the composition and structure of these tiny wires as they grow.

February 22, 2012

Richard K. Lester, Japan Steel Industry Professor and nuclear science and engineering department head.

The new NSE strategy

Strengthens core, opens boundaries; seeks better integration of technical and societal issues.

November 29, 2011

MIT News | Massachusetts Institute of Technology

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