Materials science

Thermal lattices, shown here, are one possible application of the newly developed thermocrystals. In these structures, where precisely spaced air gaps (dark circles) control the flow of heat, thermal energy can be "pinned" in place by defects introduced into the structure (colored areas).

How to treat heat like light

New approach using nanoparticle alloys allows heat to be focused or reflected just like electromagnetic waves.

January 11, 2013

New material harvests energy from water vapor

Polymer film could be used in artificial muscle and to power micro- and nanoelectronic devices.

January 10, 2013

The first stage of blood clotting is the formation of a plug, seen here, which is made up of platelets (seen in gold) and structures called von Willebrand Factor (vWF), seen in red. The vWF structures are normally present in blood in coiled up form, but in the presence of the flow from a bleeding wound they unfurl to form long, sticky strands, which bind the platelets together.

How to stop leaks — the way blood does

Harnessing the principle that allows blood to clot, MIT researchers are working on new synthetic materials to plug holes.

January 8, 2013

Jumping-droplet condensation shown on a nanostructured tube.

Research update: Jumping droplets help heat transfer

Scalable nanopatterned surfaces designed by MIT researchers could make for more efficient power generation and desalination.

January 4, 2013

F. William Herbert of materials science and engineering (left) and Bilge Yildiz of nuclear science and engineering are examining how nanoscale disruptions in the crystalline structure of metals affect those materials’ vulnerability to stress corrosion cracking.

New experiments, new insights into stress corrosion cracking

MIT researchers now have new insights into how 'stress corrosion cracking' may be affected by nanoscale disruptions in the crystalline structure of metallic materials.

December 20, 2012

MIT physicists grew this pure crystal of herbertsmithite in their laboratory. This sample, which took 10 months to grow, is 7 mm long (just over a quarter-inch) and weighs 0.2 grams.

MIT researchers discover a new kind of magnetism

Experiments demonstrate ‘quantum spin liquid,’ which could have applications in new computer memory storage.

December 19, 2012

Department of Nuclear Science and Engineering doctoral student Yue Fan

Yue Fan awarded Argonne postdoctoral fellowship

December 12, 2012

This fluorescent microscope image shows the tiny barbs that coat the tip of a porcupine's quills.

Inspiration from a porcupine’s quills

Understanding the mechanisms behind quill penetration and extraction could help engineers design better medical devices.

December 10, 2012

Arfa Aijazi has taken full advantage of MIT's opportunities, conducting research in England, Tanzania and Brazil.

Building a better world

From fuel cells to bamboo, and from Tanzania to Brazil, MIT senior Arfa Aijazi crosses borders and disciplines to make an impact.

December 4, 2012

Associate Professor of Mechanical Engineering Kripa K. Varanasi

Varanasi selected as outstanding young manufacturing engineer by SME

MIT professor of mechanical engineering is one of just seven recipients of the award this year.

November 30, 2012

This diagram of the molecular structure of one of the artificially produced versions of spider silk depicts one that turned out to form strong, well-linked fibers. A different structure, made using a variation of the same methods, was not able to form into the long fibers needed to make it useful. Musical compositions based on the two structures helped to show how they differed.

The music of the silks

Researchers synthesize a new kind of silk fiber — and find that music can help fine-tune the material’s properties.

November 28, 2012

Saraceno's current installation 'On Space Time Foam' at the HangarBiccoca in Milan, Italy.

All that is solid melts into air: Tomás Saraceno visits MIT

CAST visiting artist creates inflatable and airborne biospheres: speculative models for alternate ways of living.

November 26, 2012

Yet-Ming Chiang, the Kyocera Professor of Ceramics

Chiang honored for achievements in energy and environment

Wins Innovation Award from The Economist

November 19, 2012

When the new shear thinning hydrogel (top) is heated to body temperature, polymer chains join together to form a reinforcing network that improves the gel’s stability (bottom).

New injectable gels toughen up after entering the body

These more durable gels could find applications in drug delivery and tissue engineering.

November 16, 2012

New research shows that heat-transporting quasi-particles maintain wave-like properties in nanostructures.

Controlling heat flow through a nanostructure

MIT researchers find that heat moving in materials called superlattices behaves like waves; finding could enable better thermoelectrics.

November 15, 2012

MIT News | Massachusetts Institute of Technology

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