Solar

Developing new light and energy technologies

Silvija Gradečak customizes nanoscale systems for large-scale impact in light and energy.

August 20, 2014

Steam from the sun

New spongelike structure converts solar energy into steam.

July 21, 2014

William Braff PhD ’14, Martin Z. Bazant, and Cullen Buie are developing a low-cost, high-capacity, battery.

Novel bromine battery: Small-scale demo, large-scale promise

Low-cost, high-capacity, rechargeable battery could one day enable widespread adoption of intermittent energy sources such as solar and wind.

June 26, 2014

DOE renews two Energy Frontier Research Centers at MIT

Centers selected from more than 200 proposals from across the country.

June 23, 2014

Getting ready for summer solar vehicle race

MIT team members preparing "Valkyrie" for Austin to St. Paul run in July.

June 6, 2014

Researcher displays a sample of the record-setting new solar cell on the MIT campus.

Improving a new breed of solar cells

Quantum-dot photovoltaics set new record for efficiency in such devices, could unlock new uses.

May 27, 2014

Beyond low-hanging fruit

Alexander Slocum tackles “impossible” engineering problems to help meet growing world energy demand.

May 15, 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

Members of the Unified Solar team: (from left) Jin Moon, Anas Al Bastami, Albert Chan, Jorge Elizondo, Bessma Aljarbou, and Arthur Chang. At far right is NSTAR President Craig Hallstrom.

MIT team wins Clean Energy Prize for solving solar’s shade problem

Unified Solar takes home $225,000 for a circuit that augments the output of partially shaded solar cells.

April 29, 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

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

Researchers use a near-infrared microscope to read the output of carbon nanotube sensors embedded in an Arabidopsis thaliana plant.

Bionic plants

Nanotechnology could turn shrubbery into supercharged energy producers or sensors for explosives.

March 16, 2014

Panel participants (left to right): Donald Sadoway, Alexander Slocum, IHS Chairman Dan Yergin, Angela Belcher, MITEI Associate Director Lou Carranza, Robert Armstrong, Vladimir Bulovic, and CERA Co-Founder Jamey Rosenfield

MIT researchers describe 'energy game changers' at CERAWeek2014

MIT Energy Initiative Director Robert Armstrong leads panel, among other IHS CERAWeek sessions featuring MIT faculty and researchers.

March 14, 2014

A nanophotonic solar thermophotovoltaic device composed of an array of multi‑walled carbon nanotubes as the absorber, a one‑dimensional silicon/silicon dioxide photonic crystal as the emitter, and a 0.55 eV photovoltaic cell.

How to tap the sun’s energy through heat as well as light

New approach developed at MIT could generate power from sunlight efficiently and on demand.

January 19, 2014

A laser beam is used in the lab to test the gold-hyperdoped sample of silicon to confirm its infrared-sensitive properties.

Making silicon devices responsive to infrared light

Laser doping method could enable new infrared imaging systems.

January 2, 2014

MIT News | Massachusetts Institute of Technology

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