Electronics

Illustration of graphene, with an inset showing how electrons twist around before moving through the lattice

Physicists find a new way to push electrons around

Discovery might ultimately lead to new, more energy-efficient transistors and microchips.

September 11, 2014

Illustration of a sheet of graphene with light coursing through the honeycomb of atoms

Light pulses control graphene’s electrical behavior

Finding could allow ultrafast switching of conduction, and possibly lead to new broadband light sensors.

July 31, 2014

Getting a charge out of water droplets

Water condensing and jumping from a superhydrophobic surface can be harnessed to produce electricity.

July 14, 2014

Illustrated here is a new process for making graphene directly on a nonmetal substrate. First, a nickel layer is applied to the material, in this case silicon dioxide (SiO2). Then carbon is deposited on the surface, where it forms layers of graphene above and beneath the SiO2. The top layer of graphene, attached to the nickel, easily peels away using tape (or, for industrial processes, a layer of ...

A new way to make sheets of graphene

Technique might enable advances in display screens, solar cells, or other devices.

May 23, 2014

Troy Van Voorhis, professor of chemistry (left), and Marc Baldo, professor of electrical engineering (right).

Getting more electricity out of solar cells

New MIT model can guide design of solar cells that produce less waste heat, more useful current.

May 7, 2014

Excitons observed in action for the first time

Technique developed at MIT reveals the motion of energy-carrying quasiparticles in solid material.

April 16, 2014

In this illustration, the background shows a perovskite oxide structure, an example of the kinds of oxides Bilge Yildiz studies. By straining this material (as illustrated in the right-hand foreground image), the energy barrier to surface reactions is reduced. These energy barriers are shown by the three-dimensional graphs in the foreground images.

Strain can alter materials’ properties

New field of "strain engineering" could open up areas of materials research with many potential applications.

April 2, 2014

Two-dimensional material shows promise for optoelectronics

Team creates LEDs, photovoltaic cells, and light detectors using novel one-molecule-thick material.

March 10, 2014

An example of the Bits modules. Here, a power source (blue) connects to a button (pink) that will trigger a motor (green). The orange modules to the side are extending wires.

Power (of electronics) to the people

Alumna Ayah Bdeir’s fast-growing startup littleBits, which sells connectable electronic modules, is helping people understand and build creatively with electronics.

January 15, 2014

On a piece of graphene (the horizontal surface with a hexagonal pattern of carbon atoms), in a strong magnetic field, electrons can move only along the edges, and are blocked from moving in the interior. In addition, only electrons with one direction of spin can move in only one direction along the edges (indicated by the blue arrows), while electrons with the opposite spin are blocked (as shown b...

Graphene can host exotic new quantum electronic states at its edges

New approach to use of 2-D carbon material opens up unexpected properties, could unleash new uses.

December 22, 2013

3 Questions: Randolph Kirchain on the spread of electronic waste

New study provides a comprehensive look at where a steadily growing quantity of old computers, televisions, and phones end up.

December 17, 2013

Comparison of graphene oxide before (left) and after (right) the new annealing treatment. The graphene sheet is represented by yellow carbon spheres, while the oxygens and hydrogens are represented as red and white spheres. Annealing causes oxygen atoms to form clusters, creating areas of pure graphene (as shown in the right image). This results in increased light absorption, improved conduction ...

New graphene treatment could unleash new uses

MIT team develops simple, inexpensive method that could help realize material’s promise for electronics, solar power, and sensors.

December 15, 2013

Persuading light to mix it up with matter

MIT team documents a never-before-seen coupling of photons with electrons on the surface of an exotic crystal.

October 24, 2013

Light is found to be confined within a planar slab with periodic array of holes, although the light is theoretically "allowed" to escape. Blue and red colors indicate surfaces of equal electric field.

A new way to trap light

MIT researchers discover a new phenomenon that could lead to new types of lasers and sensors.

July 10, 2013

Schematics of a ferroelectric-graphene-ferroelectric nanostructure. Different domains of ferroelectrics can define densely packed waveguide patterns on graphene. Terahertz plasmons at ultrashort wavelength can flow on these waveguides.

Ferroelectric-graphene-based system could lead to improved information processing

New system uses two-dimensional structures to guide plasmonic waves at ultrashort wavelength, offering a new platform for memory and computer chips.

June 21, 2013

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