Mechanical engineering

A comparison between an untreated smooth surface (left) and lubricant-impregnated surface (right), after having gypsum-rich water boiled away from it in the lab. The treated surface shows significantly less scale deposition.

New surface treatment stops scale buildup

MIT researchers develop a slippery coating that could prevent the scaling that fouls oil wells and power plants.

January 21, 2014

A nanophotonic solar thermophotovoltaic device composed of an array of multi‑walled carbon nanotubes as the absorber, a one‑dimensional silicon/silicon dioxide photonic crystal as the emitter, and a 0.55 eV photovoltaic cell.

How to tap the sun’s energy through heat as well as light

New approach developed at MIT could generate power from sunlight efficiently and on demand.

January 19, 2014

The illustration shows a suspended nanochannel resonator (SNR), which can directly measure the mass of individual nanoparticles with single-attogram precision. The inset shows a depiction from inside the embedded fluidic channel, while a DNA-origami gold nanoparticle assembly is passing through the resonator.

Weighing particles at the attogram scale

New device from MIT can measure masses as small as one millionth of a trillionth of a gram, in solution.

January 13, 2014

The shipping news

Exciting new opportunities emerging in ocean systems management at MIT

January 13, 2014

Atlas Device's APA-5 weighs roughly 20 pounds and can lift upwards of 600 pounds, up a rope, at speeds of several feet per second.

Climbing the ‘power ascension’ market

Alumni startup Atlas Devices commercializes motorized rope-climbing technology for military use.

January 7, 2014

A laser beam is used in the lab to test the gold-hyperdoped sample of silicon to confirm its infrared-sensitive properties.

Making silicon devices responsive to infrared light

Laser doping method could enable new infrared imaging systems.

January 2, 2014

ThingMagic's product line of embedded ultrahigh-frequency (UHF) RFID reader modules, which include (from left) the Mercury5e-Compact, the Mercury5e, the Mercury6e, and the Micro. The Mercury6e, released in 2011, for instance, is a high-power, four-port, UHF module that's able to read up to 750 tags per second, up to 30 feet away, and is small enough for use in mobile applications.

Catching (radio) waves

ThingMagic, founded by five MIT alumni, helped bring radio-frequency identification technology to the supply chain.

December 24, 2013

An open structure of copper wire surrounding a pipe was used in the
lab to measure how effective an electric field can be in pulling
droplets away from a condenser surface. In combination with a particular
kind of superhydrophobic surface, the new system can nearly double the
efficiency of the cooling process, the researchers found.

Research update: Electric fields can push droplets from surfaces

New method developed at MIT could lead to near-doubling of heat-transfer efficiency from power-plant condensers.

December 20, 2013

Former MIT president Charles M. Vest dies at 72

As the Institute’s leader from 1990 to 2004, he sparked a period of dynamism.

December 13, 2013

Programs for the event featured the theme for this year's product designs: "Be Well."

Engineering students demonstrate product prototypes

Final 2.009 presentations provide new ideas for athletes, patients, hobbyists, and even horses.

December 10, 2013

Four MIT seniors win Marshall Scholarships

Kate Koch, Colleen Loynachan, Kirin Sinha, and Grace Young will study for two years in the UK.

December 3, 2013

Illustration of a human head and neck with the esophagus highlighted

Pills of the future: nanoparticles

Researchers design drug-carrying nanoparticles that can be taken orally

November 27, 2013

A ridge in the wing of a morpho butterfly, created by a vein within the wing, produces the same effect that MIT researchers found can make bouncing droplets form non-uniform shapes, which causes them to spend less time in contact with a surface.

Droplets break a theoretical time barrier on bouncing

MIT research could aid ice prevention, wing efficiency, and more.

November 20, 2013

Better batteries through biology?

MIT researchers find a way to boost lithium-air battery performance, with the help of modified viruses.

November 13, 2013

Micrographs showing water droplets landing on specially designed silicon surfaces (top images) at different temperatures. At higher temperatures, the droplets begin to exhibit a new behavior: instead of boiling, they bounce on a layer of vapor, never really wetting and cooling the surface. At 400 C, the droplet continues to boil only on the surface that combines microscale posts with a coating of ...

Cooling when there’s too much heat

MIT researchers make surfaces that are easier to cool under extreme heat; finding could benefit power plants, electronics.

November 11, 2013

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