Materials science and engineering

When subjected to a load, the molecular structure of the ceramic material studied by the MIT-Singapore team deforms rather than cracking. When heated, it then returns to its original shape. Though they have the same chemical composition, the two molecular configurations correspond to different natural minerals, called austenite and martensite.

How to make ceramics that bend without breaking

New materials developed at MIT could lead to actuators on a chip and self-deploying medical devices.

September 26, 2013

Cryoelectron microscope image of the nanoparticles developed by MIT researchers to deliver vaccines to mucosal surfaces.

Nanoparticle vaccine offers better protection

Particles that deliver vaccines directly to mucosal surfaces could defend against many infectious diseases.

September 25, 2013

Robert E. Ogilvie, DMSE professor emeritus, dies at 89

September 25, 2013

A sample of the mineral herbertsmithite.

Understanding a new kind of magnetism

Researchers use low-frequency laser pulses to probe the properties of a kind of fluctuating magnetism known as a spin-liquid state.

September 23, 2013

On typical hydrophobic coatings, droplets forming from high-temperature steam soon spread out to coat the surface, quickly degrading their performance. The new coating, seen here, maintains its ability to foster droplet formation over long periods.

Water-shedding surfaces can be made to last

New approach to hydrophobic material could benefit power plants, cooling systems.

September 20, 2013

A diagram of the molecular structure of double perovskite shows how atoms of barium (green) and a lanthanide (purple) are arranged within a crystalline structure of cobalt (pink) and oxygen (red).

New materials improve oxygen catalysis

Highly active catalysts could be key to improved energy storage in fuel cells and advanced batteries.

September 17, 2013

In a new graphene-on-silicon photodetector, electrodes (gold) aredeposited, slightly asymmetrically, on either side of a silicon waveguide(purple). The asymmetry causes electrons kicked free by incoming light toescape the layer of graphene (hexagons) as an electrical current.

Graphene could yield cheaper optical chips

Researchers show that graphene — atom-thick sheets of carbon — could be used in photodetectors, devices that translate optical signals to electrical.

September 15, 2013

Associate Professor Silvija Gradečak with a metal organic chemical vapor deposition system used to create nanowires from metal seed particles.

Developing nanowires for solar cells

Profiling Silvija Gradečak, the Thomas Lord Associate Professor in Materials Science and Engineering

September 12, 2013

Catalyzing the next generation of batteries

Professor Yang Shao-Horn works at the cutting edge of basic energy science research

September 12, 2013

A diagram of one of the group's experimental setups shows a copper platethat can be heated using a torch underneath it, to study the effect oftemperature on the process. On top of the plate, an apparatus consistingof two reservoirs separated by a silicon structure that has a singlecarbon nanotube on top of it. When a power source is connected to theelectrodes (the wires extending up ...

A pea-shooter for molecules

Researchers find that tiny molecules passing through nanotubes can be propelled or slowed depending on their size.

September 12, 2013

Illustration shows the passage of a gold nanoparticle (in orange) covered with a monolayer of hydrophobic/hydrophilic material (shown in blue-green, yellow and red), passing through a cell membrane composed of lipids (white and blue).

The gold standard for cell penetration

Gold nanoparticles with special coatings can deliver drugs or biosensors to a cell’s interior without damaging it.

August 23, 2013

Wesley Hong in the Electrochemical Energy Lab of MIT Professor Yang Shao-Horn.

Tuning metal-oxygen bond strength

Controlling spin state through strain could lead to better cathodes for solid oxide fuel cells

August 5, 2013

In it for the long run

When Millie Dresselhaus won the prestigious Kavli Award last year, she put her money where her career has been.

July 31, 2013

Cross-section view of the proposed silicon carbide cladding for nuclear fuel rods. The fuel pellets are in the center, shown as a gray crosshatch. Then, after a thin layer of inert helium gas, the three layers of cladding are shown in black (solid SiC), green (composite material made up of SiC fibers infused with SiC), and blue (another solid layer of SiC).

Improved nuclear fuel-rod cladding might prevent future Fukushimas

A substitute for traditional zircaloy could greatly reduce the danger of hydrogen explosions.

July 26, 2013

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

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How to make ceramics that bend without breaking

Nanoparticle vaccine offers better protection

Robert E. Ogilvie, DMSE professor emeritus, dies at 89

Understanding a new kind of magnetism

Water-shedding surfaces can be made to last

New materials improve oxygen catalysis

Graphene could yield cheaper optical chips

Developing nanowires for solar cells

Catalyzing the next generation of batteries

A pea-shooter for molecules

The gold standard for cell penetration

Tuning metal-oxygen bond strength

In it for the long run

Improved nuclear fuel-rod cladding might prevent future Fukushimas

Transition metal oxide catalysts

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Materials science and engineering