Carbon materials

Desalination gets a graphene boost

Jeffrey Grossman applies new materials research to making desalination cheaper and more efficient.

November 2, 2015

Researchers created pores in a graphene sheet (in purple) and then placed it over a layer of silicon nitride (in blue) that had been punctured by an ion beam. This allows specific hydrated ions, which are surrounded by a shell of water molecules, to pass through.

Big range of behaviors for tiny graphene pores

Like biological channels, graphene pores are selective for certain types of ions.

October 5, 2015

An uncoated copper condenser tube (top left) is shown next to a similar tube coated with graphene (top right). When exposed to water vapor at 100 degrees Celsius, the uncoated tube produces an inefficient water film (bottom left), while the coated shows the more desirable dropwise condensation (bottom right).

Thin coating on condensers could make power plants more efficient

Graphene layer one atom thick could quadruple rate of condensation heat transfer in generating plants.

May 29, 2015

Measuring hot electrons

MIT graduate student Qiong Ma is uncovering electrical properties of graphene-based devices using laser-light stimulation.

May 26, 2015

Copper substrate is shown in the process of being coated with graphene. At left, the process begins by treating the copper surface, and, at right, the graphene layer is beginning to form. Upper images are taken using visible light microscopy, and lower images using a scanning electron microscope.

How to make continuous rolls of graphene

New manufacturing process could take exotic material out of the lab and into commercial products.

May 21, 2015

Researchers have shown that a DC voltage applied to layers of graphene and boron nitride can be used to control light emission from a nearby atom. In these figures, graphene is represented by a maroon-colored top layer; boron nitride is represented by yellow-green lattices below the graphene; and the atom is represented by a grey circle. An applied DC voltage can drastically modify the graphene la...

Taking control of light emission

Researchers find a way of tuning light waves by pairing two exotic 2-D materials.

May 20, 2015

Probing graphene physics

MIT postdoc Javier Sanchez-Yamagishi charts quantum signatures of electronic transport in graphene.

May 19, 2015

In a two-step process, engineers have successfully sealed leaks in graphene. First, the team fabricated graphene on a copper surface (top left) — a process that can create intrinsic defects in graphene, shown as cracks on the surface. After lifting the graphene and depositing it on a porous surface (top right), the transfer creates further holes and tears. In a first step (bottom left), the team...

Plugging up leaky graphene

New technique may enable faster, more durable water filters.

May 8, 2015

Faculty highlight: Pablo Jarillo-Herrero

MIT physics professor has played a leading role in the development of revolutionary new artificial materials.

May 6, 2015

A new film of carbon nanotubes cures composites for airplane wings and fuselages, using only 1 percent of the energy required by traditional, oven-based manufacturing processes.

Taking aircraft manufacturing out of the oven

New technique uses carbon nanotube film to directly heat and cure composite materials.

April 14, 2015

Dresselhaus and Solow win Presidential Medal of Freedom

Two Institute Professors are among 19 new recipients of the nation’s highest civilian honor.

November 10, 2014

Shown here is the crystal structure of molybdenum disulfide, MoS2, with molybdenum atoms shown in blue and sulfur atoms in yellow. When hit with a burst of laser light, freed electrons and holes combine to form combinations called trions, consisting of two electrons and one hole, and represented here by orange and green balls.

Unconventional photoconduction in an atomically thin semiconductor

New mechanism of photoconduction could lead to next-generation excitonic devices.

October 6, 2014

Four grayscale electron microscope images of graphene. Top right, graphene in a partially crumpled state. Bottom right, a piece that has been crumpled and then flattened out. Top left: chaotic crumpled pattern. Bottom left: graphene folded into pleats.

Crumpled graphene could provide an unconventional energy storage

Two-dimensional carbon “paper” can form stretchable supercapacitors to power flexible electronic devices.

October 3, 2014

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

MIT News | Massachusetts Institute of Technology

Browse By

Topics

Departments

Centers, Labs, & Programs

Schools

Topic