Innovation and Entrepreneurship (I&E)

An image (made with Raman spectroscopy) of a graphene layer on top of a patterned substrate shows the difference in chemical reactivity of the side opposite the substrate. The wide red stripe is an area over a silicon dioxide substrate, making the top surface of the graphene highly reactive. The narrow blue stripe is graphene over a layer of hydrocarbon (called OTS), and there is almost no reactiv...

Graphene’s behavior depends on where it sits

New findings show that the material beneath the thin carbon sheets determines how they react chemically and electrically.

August 13, 2012

Matthew Orosz and Amy Mueller work with locals in Lesotho to implement their solar ORC system.

Bringing power to the people — and heat as well

Sun-powered system developed by MIT students could provide electricity, heat and cooling to rural schools and clinics.

August 6, 2012

2012-13 Legatum Fellows Announced

25 students awarded fellowships for projects in 15 countries.

August 3, 2012

Images taken with a 3-D microscope show wrinkled surfaces produced using a method developed by the MIT team. The size, spacing and angles of the wrinkles vary depending on how much the original underlying surface was stretched, and how the stretching was released.

Wrinkled surfaces could have widespread applications

MIT team discovers way of making perfectly ordered and repeatable surfaces with patterns of microscale wrinkles.

August 1, 2012

MIT Forum for Supply Chain Innovation launches Manufacturing Technology Advisory Board; Infosys joins board

Leaders from academia and the technology industry will work together to share ideas and plan ways to help transform U.S. manufacturing.

July 26, 2012

An artist's conception shows how any number of incoming photons (top) can be absorbed by a cloud of ultra-cold atoms (center), tuned so that only one single photon can pass through at a time. Being able to produce a controlled beam of single photons has been a goal of research toward creating quantum devices.

Single-photon transmitter could enable new quantum devices

Long-sought goal for quantum devices — the ability to transmit single photons while blocking multiple photons — is finally achieved.

July 25, 2012

An artist's representation of the structures produced by this self-assembly method shows a top-down view, with the posts produced by electron-beam lithography shown in blue, and the resulting self-assembled shapes shown in white.

Research update: Chips with self-assembling rectangles

New technique allows production of complex microchip structures in one self-assembling step.

July 19, 2012

This illustration shows how a molten fiber, because of a phenomenon known as Rayleigh instability, naturally breaks up into spherical droplets. Researchers from MIT and UCF have figured out how to use this natural tendency as a way to make large quantities of perfectly uniform particles, which can have quite complex structures.

Dripping faucets inspire new way of creating structured particles

Researchers find new method for making spherical particles, from nanoscale to pinhead-sized — including complex beach-ball-like shapes.

July 18, 2012

Commander Cady Coleman '83, astronaut and accomplished flautist; International Space Station

Said and Done for June/July 2012

Digest of MIT humanities, arts and social sciences

July 16, 2012

New chip captures power from multiple sources

System developed at MIT could combine power harvested from light, heat and vibrations to run monitoring systems.

July 9, 2012

Matthew Orosz stands with a parabolic solar collector in Lesotho in January 2006. During this trip, funded by IDEAS awards and Public Service Center fellowships, Orosz and his team deployed their second field prototype.

Matthew Orosz awarded Echoing Green Fellowship to further off-grid energy work

Newly minted MIT PhD selected for two-year social entrepreneurship fellowship.

July 5, 2012

Richard wins 2012 Innovations in Fuel Cycle Research Award

July 5, 2012

Sharper ultrasound images could improve diagnostics

New system developed at MIT allows precise measurements and tracking of disease progression.

June 18, 2012

Members of the Essmart Global team pose after winning in the IDEAS Global Challenge in May. (L-R) Jackie Stenson, Diana Jue '09, MCP '12, Taylor Matthews G

Essmart Global awarded grand prize in Dell Social Innovation Competition

MIT IDEAS Global Challenge team wins $50,000 in international competition.

June 15, 2012

This electron microscope image shows two layers of nanowires produced through the MIT team's self-assembly process, showing how deviations in the pattern and connections between the layers can be included in the design.

Teaching self-assembling structures a new trick

MIT researchers produce 3-D configurations that could lead to new microchips and other devices.

June 7, 2012

MIT News | Massachusetts Institute of Technology - On Campus and Around the world

Browse By

Topics

Departments

Centers, Labs, & Programs

Schools

Topic