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A donkey grazes in a pasture near solar panels at Sanctuary Dairy Farm Ice Cream in Sunapee, New Hampshire.

Concentrating dawn-to-dusk solar energy

MOSAIC award spurs MIT research into concentrator solar cells that can run in shade and full sun with power control and wavelength separation.

January 11, 2016

The layer-by-layer solar thermal fuel polymer film comprises three distinct layers (4 to 5 microns in thickness for each). Cross-linking after each layer enables building up films of tunable thickness.

A new way to store solar heat

Material could harvest sunlight by day, release heat on demand hours or days later.

January 7, 2016

This diagram illustrates the principle behind the proposed energy-harvesting system. Two metal electrodes made of lithium-alloyed silicon form a sandwich around a layer of electrolyte, a polymer that ions (charged atoms) can move across. When the sandwich is bent, unequal stresses cause lithium ions to migrate across the electrolyte, producing a compensating electron current that can be harnessed ...

Harnessing the energy of small bending motions

New device could provide electrical power source from walking and other ambient motions.

January 6, 2016

MIT graduate students (l-r) Ritchie Chen, Kelsey Stoerzinger and Scott Grindy, won Silver Awards at the Materials Research Society 2015 Fall Meeting in Boston.

Grad students honored for their research at Materials Research Society meeting

Three MIT graduate students win Silver Awards for work on catalysts, hydrogels, and magnetic nanoparticles.

January 5, 2016

Angela Belcher (pictured), MIT professor of biological engineering and materials science and engineering; Paula Hammond, professor and head of the MIT Department of Chemical Engineering; Po-Yen Chen PhD ’15 (now at Brown University); and others have shown that a novel, high-efficiency, low-cost solar cell can be made using lead recovered from an abundant, old-technology source: lead-acid car bat...

Solar energy from discarded car batteries

An MIT development could benefit both the environment and human health.

December 22, 2015

(Clockwise from top left)
Angela M. Belcher; Sangeeta N. Bhatia; H. Robert Horvitz; and Emery N. Brown.

Four MIT faculty named 2015 fellows of the National Academy of Inventors

Belcher, Bhatia, Brown, and Horvitz recognized for demonstrating a prolific spirit of innovation and invention resulting in a tangible impact on society.

December 18, 2015

This diagram shows the layered structure analyzed for its magnetic properties. Yellow spheres represent tellurium atoms; light blue spheres represent antimony-bismuth; and purple spheres represent sulfur. The black sphere with an arrow represents an atom of dopant, and green spheres with arrows show atoms of europium. Different colored arrows show various ways an europium ion can be affected by th...

Unusual magnetic behavior observed at a material interface

Findings could lead to a building block for future quantum computers, and a research tool for physics.

August 18, 2015

Illustration of red blood cells with "waves" going through them

Sorting cells with sound waves

Acoustic device that separates tumor cells from blood cells could help assess cancer’s spread.

August 25, 2014

A powerful arc lamp is used to simulate sunlight on a sample of photoswitchable molecules, driving structural changes at the molecular level. A portion of the light's energy is stored with each structural change. The progress of these changes can be tracked by monitoring the molecules' optical properties.

A molecular approach to solar power

Switchable material could harness the power of the sun — even when it’s not shining.

April 13, 2014

High pure white potash awaits packaging and sale for use in soluble fertilizer and in industrial markets. Potash can be used as a replacement for potassium fertilizers for bananas and other agricultural products.

A new source for potassium fertilizer

Allanore lab chemically alters feldspar, an ore closer to home for countries that cultivate bananas and other potassium-dependent crops

April 8, 2014

Finding the keys to boiling heat transfer

Understanding the properties that control surface dissipation of heat could lead to improved power plants and electronics with high heat-transfer rates.

July 16, 2013

In a 50/50 mix of copper and niobium, regions that are richer in copper separate from regions that are richer in niobium. The interface between these two kinds of regions forms an irregular sponge-like surface, shown in this visualization in green. While most of the material is disordered (making it a glass), small collections of atoms at the boundary zone (shown in gray) form a stiff interconnect...

A new understanding of metallic glass

Simulations reveal that the formation of some glassy materials is like the setting of a bowl of gelatin.

April 2, 2013

A molecule of fulvalene diruthenium, seen in diagram, changes its configuration when it absorbs heat, and later releases heat when it snaps back to its original shape.

Catching the sun’s heat

Storing thermal energy in chemical form has the potential to make it indefinitely storable and transportable.

October 26, 2010

Building microchips from the bottom up

MIT develops novel self-assembly method that could break size barrier

August 14, 2008

MIT researchers have created 'striped' nanoparticles capable of entering a cell without rupturing it. In the background of thisÂ cartoon are cells that have taken up nanoparticles carrying fluorescent imaging agents

Stripes key to nanoparticle drug delivery

June 9, 2008

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