Nanoscience and nanotechnology

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

Moving past trial and error

Richard Braatz applies math to design new materials and processes for drug manufacturing.

February 15, 2012

A microscope image of the tungsten photonic crystal structure reveals the precise uniform spacing of cavities formed in the material, which are tuned to specific wavelengths of light.

Turning heat into power

A new kind of high-temperature photonic crystal could someday power everything from smartphones to spacecraft.

February 3, 2012

A glass stamp reproduces precise, nanometer-scale etchings in silver. The original engraving, pictured above, is 10 microns wide — less than a quarter of the diameter of a human hair.

Tiny stamps for tiny sensors

New glass stamp may make cheaper, more precise biosensors.

October 19, 2011

Images taken with a Field Emission Scanning Electron Microscope show the nanowire bristles that form on copper particles of different sizes. At top right, a cross-section of one of the particles reveals its hollow interior.

Bristly particles could be boon for powerplants

Multi-scale material may have applications in heat transfer, potentially helping powerplants be more efficient.

October 17, 2011

Graphene shows unusual thermoelectric response to light

Finding could lead to new photodetectors or energy-harvesting devices.

October 7, 2011

A scanning electron microscope (SEM) image of nanowire-alginate composite scaffolds. Star-shaped clusters of nanowires can be seen in these images.

A heart of gold

New cardiac patch uses gold nanowires to enhance electrical signaling between cells, a promising step toward better treatment for heart-attack patients.

September 26, 2011

MIT senior Nicholas Dou, right, and his postdoctoral fellow advisor Ryan Enright discuss improvements to a cold plate that Dou has created to test condensation behavior and heat transfer properties of nanostructured surfaces. Using such novel surfaces, Dou aims to improve the performance of condensers, thereby increasing the efficiency of solar collectors.

Undergraduate energy research ‘fueled’ by team approach

September 8, 2011

Zinc oxide nanostructures are directly synthesized in parallel microfluidic channels (held by the metal frame) by flowing reactants through the tubing. The microfluidic structure not only creates the device, but also becomes the final packaged functional LED device itself.

How to grow wires and tiny plates

Liquid processing method developed at MIT can control the shapes of nanowires and produce complete electronic devices.

July 14, 2011

The new 3D nanofabrication method makes it possible to manufacture complex multi-layered solids all in one step. In this example, seen in these Scanning Electron Microscope images, a view from above (at top) shows alternating layers containing round holes and long bars. As seen from the side (lower image), the alternating shapes repeat through several layers.

A new way to build nanostructures

Combining top-down and bottom-up approaches, new low-cost method could be a boon to research with a variety of applications.

July 6, 2011

When compounds of bromine or chlorine (represented in blue) are introduced into a block of graphite (shown in green), the atoms find their way into the structure in between every third sheet, thus increasing the spacing between those sheets and making it easier to split them apart.

Layer upon layer

Method holds promise for making two- or three-tier graphene films that could be used for new electronic devices.

June 28, 2011

MIT researchers designed nanoparticles that can quickly locate a tumor, then set off a chemical reaction that attracts larger swarms of drug-delivering nanoparticles to the site.

Working in harmony

MIT-designed nanoparticles communicate with each other inside the body to target tumors more efficiently.'

June 20, 2011

Anantha Chandrakasan, the new head of the Department of Electrical Engineering and Computer Science.

Chandrakasan named head of electrical engineering and computer science

Succeeds Grimson as leader of MIT's largest academic department

June 13, 2011

The MIT researchers' sensor uses carbon nanotubes (in yellow) covered in protein fragments to detect even a single molecule of an explosive, such as the TNT molecule shown here.

Finding a needle in a haystack

New sensor developed by MIT chemical engineers can detect tiny traces of explosives.

May 10, 2011

Paula Hammond, Bayer Professor of Chemical Engineering and a member of the David H. Koch Institute for Integrative Cancer Research at MIT.

Removable ‘cloak’ for nanoparticles helps them target tumors

New MIT particles could be used to deliver cancer drugs to nearly any type of tumor.

April 29, 2011

MIT News | Massachusetts Institute of Technology

Browse By

Topics

Departments

Centers, Labs, & Programs

Schools

Topic