Nanoscience and nanotechnology

Green circular glowing lines on a black background

Merging tissue and electronics

New tissue scaffold could be used for drug development and implantable therapeutic devices.

August 27, 2012

Tongjai Chookajorn, left, and Heather Murdoch, the lead authors of <i>Science</i> paper on the design and production of new stable nanocrystalline metal alloys with exceptional strength and other properties.

Engineers achieve longstanding goal of stable nanocrystalline metals

Method developed by MIT researchers could produce materials with exceptional strength and other properties.

August 23, 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

Images of nanopatterned films of nano crystalline material produced by the MIT research team. Each row shows a different pattern produced on films of either cadmium selenide (top and bottom) or a combination of zinc cadmium selenide and zinc cadmium sulfur (middle row). The three images in each row are made using different kinds of microscopes: left to right, scanning electron microscope, optical ...

Patterning defect-free nanocrystal films with nanometer resolution

New process developed at MIT could enable better LED displays, solar cells and biosensors — and foster basic physics research.

August 20, 2012

Short strands of RNA can be used to selectively turn off cancer genes.

New nanoparticles shrink tumors in mice

Particles that shut off cancer genes could also allow researchers to screen potential drug targets more rapidly.

August 16, 2012

A scanning electron micrograph of carrot, top, and potato, bottom, showing relatively thin-walled cells. The oval objects within the potato tissue are starch granules.

Plants exhibit a wide range of mechanical properties, engineers find

Biological structures may help engineers design new materials.

August 14, 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

Green sulfur bacteria, whose exceptional light-harvesting capabilities inspired the artificial system analyzed by postdoc Dörthe Eisele and her co-workers, dominate this hot spring at Yellowstone National Park and give it its striking green color.

Researchers explain how dye-based nanotubes can help harvest light’s energy

Tiny cylinders help reveal how natural-light-harvesting antennae collect light with exceptional efficiency.

July 6, 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

Seen from above, a sheet of silicon has been textured with an array of tiny inverted-pyramid shapes, so small that they correspond to the wavelengths of light and can efficiently trap light waves.

Textured surface may boost power output of thin silicon solar cells

MIT team finds new approach to trapping light efficiently in thin-film silicon solar cells.

June 13, 2012

This electron microscope image shows two layers of nanowires produced through the MIT team's self-assembly process, showing how deviations in the pattern and connections between the layers can be included in the design.

Teaching self-assembling structures a new trick

MIT researchers produce 3-D configurations that could lead to new microchips and other devices.

June 7, 2012

Researchers successfully used this nanoparticle, made from several strands of DNA and RNA, to turn off a gene in tumor cells.

Researchers achieve RNA interference, in a lighter package

Pared-down nucleic acid nanoparticle poses less risk of side effects, offers better targeting.

June 4, 2012

On Sept. 4, King Harald of Norway presented awards to the winners of the Kavli Prize in astrophysics, from left, David Jewitt, MIT Lincoln Laboratory's Jane Luu and Michael Edwards Brown.

Dresselhaus, Graybiel, Luu receive 2012 Kavli Prizes

Biennial prizes in astrophysics, nanoscience and neuroscience include a $1 million cash award in each field.

May 31, 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

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