Chemistry

Emily Wick participates in a 1997 panel discussion on the history of women at MIT.

Emily Wick PhD '51, MIT's first female professor to earn tenure, dies at 91

Chemist and nutrition scientist was a pioneer in women's rights on campus and loved sailing.

April 23, 2013

Special deal on photon-to-electron conversion: Two for one!

New technique developed at MIT could enable a major boost in solar-cell efficiency.

April 18, 2013

Scanning Electron Microscope images show an array of zinc-oxide nanowires (top) and a cross-section of a photovoltaic cell made from the nano wires, interspersed with quantum dots made of lead sulfide (dark areas). A layer of gold at the top (light band) and a layer of indium-tin-oxide at the bottom (lighter area) form the two electrodes of the solar cell.

New solar-cell design based on dots and wires

MIT researchers improve efficiency of quantum-dot photovoltaic system by adding a forest of nanowires.

March 25, 2013

This scanning electron micrograph shows HIV particles infecting a human T cell.

Study offers new way to discover HIV vaccine targets

Ragon Institute researchers develop a method to identify weak points in viral proteins that could be exploited for vaccine development.

March 21, 2013

MIT researchers develop solar-to-fuel roadmap for crystalline silicon

New analysis points the way to optimizing efficiency of an integrated system for harvesting sunlight to make storable fuel.

March 4, 2013

MIT chemists designed many variants of epipolythiodiketopiperazine (ETP) alkaloids and tested them for anticancer activity. A representative ETP structure is shown.

Research update: Chemists find help from nature in fighting cancer

Study of several dozen compounds based on a fungal chemical shows potent anti-tumor activity.

February 27, 2013

Six MIT researchers win Sloan Research Fellowships

MIT researchers specializing in economics, mathematics, chemistry and physics are among 126 selected.

February 19, 2013

The new quantum dots “combine all these attributes that people think are important, at the same time," says Moungi Bawendi, the Lester Wolfe Professor of Chemistry.

MIT researchers improve quantum-dot performance

New production method could enable everything from more efficient computer displays to enhanced biomedical testing.

February 3, 2013

MIT chemists have devised a way to identify which proteins are present in different compartments of the mitochondria.

Mapping the living cell

New technique pinpoints protein locations, helping scientists figure out their functions.

January 31, 2013

Dörthe M. Eisele of the Research Laboratory of Electronics (left) and Moungi G. Bawendi of chemistry are investigating fundamental processes in light-harvesting nanotubes and quantum dots with a goal of one day developing a completely new approach to collecting energy from the sun.

Capturing energy from the sun

MIT investigators are inspired by a deep-sea bacterium that is able to harvest tiny amounts of incoming solar energy with exquisite efficiency.

January 23, 2013

New material harvests energy from water vapor

Polymer film could be used in artificial muscle and to power micro- and nanoelectronic devices.

January 10, 2013

MIT physicists grew this pure crystal of herbertsmithite in their laboratory. This sample, which took 10 months to grow, is 7 mm long (just over a quarter-inch) and weighs 0.2 grams.

MIT researchers discover a new kind of magnetism

Experiments demonstrate ‘quantum spin liquid,’ which could have applications in new computer memory storage.

December 19, 2012

This fluorescent microscope image shows the tiny barbs that coat the tip of a porcupine's quills.

Inspiration from a porcupine’s quills

Understanding the mechanisms behind quill penetration and extraction could help engineers design better medical devices.

December 10, 2012

This electron-microscope image of a cross-section of a layered polymer shows the crater left by an impacting glass bead, and the deformation of the previously even, parallel lines of the layered structure as a result of the impact. In this test, the layered material was edge-on to the impact. Comparative tests showed that when the projectile hit head-on, the material was able to resist the impact ...

Stronger than a speeding bullet

New tests of nanostructured material could lead to better armor against everything from gunfire to micrometeorites.

November 7, 2012

In this simulation of a polymer network, the red segments represent polymers that have looped onto themselves.

A step toward stronger polymers

Counting loops that weaken materials could help researchers eliminate structural flaws.

November 5, 2012

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