Mechanical Engineering

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

The SolarClave system at work. The sterilizing vessel is an ordinary pressure cooker that has been insulated on the top and sides.

Sterilizing with the sun

Solar concentrating system could replace fuel-powered or electric devices in remote villages.

February 26, 2013

That’s the way the droplets adhere

New technique developed by MIT researchers provides first direct views of how drops and bubbles adhere to surfaces — and how they let go.

February 19, 2013

Daniel Jimenez named Gates Cambridge Scholar for 2013

Alumnus to pursue graduate studies in engineering for sustainable development at Cambridge University.

February 13, 2013

Pieces of a silicon wafer (in gray), used for solar cells or computer chips, can be coated or "passivated" using a vapor deposition process, in which the wires shown here are heated to vaporize polymer materials which then are deposited to coat the surface.

A cooler way to protect silicon surfaces

New room-temperature process could lead to less expensive solar cells and other electronic devices.

February 13, 2013

Water from actual natural gas wells, sent to MIT by the companies that operate them, was run through the system, producing clean, potable water.

Purification on the cheap

System developed at MIT cleans ‘produced water’ from natural gas wells, could lead to improved desalination plants for developing countries.

February 5, 2013

Graphic with words "Medicine" and "Technology"

MIT students create new medical devices

Precision machine design class links doctors with students to find ways of meeting pressing medical needs for new technology.

January 30, 2013

MIT postdoc Gisele Azimi, left, displays three of the 13 different ceramic disks made from oxides of the rare earth elements, with associate professor Kripa Varanasi. Behind them is the furnace used to convert the powdered oxides into solid ceramic form.

Rare earth oxides make water-repellent surfaces that last

Ceramic forms of hydrophobic materials could be far more durable than existing coatings or surface treatments.

January 20, 2013

This image shows multiple microfluidic sites in a single system that can be used to conduct many experiments simultaneously.

Tiny tools help advance medical discoveries

MIT researchers are designing tools to analyze cells at the microscale.

January 8, 2013

Jumping-droplet condensation shown on a nanostructured tube.

Research update: Jumping droplets help heat transfer

Scalable nanopatterned surfaces designed by MIT researchers could make for more efficient power generation and desalination.

January 4, 2013

Professor Roger Kamm, left, and PhD candidate Ioannis Zervantonakis

Professor Roger Kamm visualizes sneaky tumor cells with 3-D assay

Kamm is studying the mechanics of metastasis, the process of cancer-cell migration from one location in the body to another and the cause of more than 90 percent of cancer deaths.

December 26, 2012

F. William Herbert of materials science and engineering (left) and Bilge Yildiz of nuclear science and engineering are examining how nanoscale disruptions in the crystalline structure of metals affect those materials’ vulnerability to stress corrosion cracking.

New experiments, new insights into stress corrosion cracking

MIT researchers now have new insights into how 'stress corrosion cracking' may be affected by nanoscale disruptions in the crystalline structure of metallic materials.

December 20, 2012

Juan Esteban Montero will write a thesis on the mining industry as part of the requirements in the System Design and Management program.

System Design and Management student establishes MIT’s first mining club

Mining, Oil and Gas Club has sparked interest outside of MIT, notes Juan Esteban Montero.

December 14, 2012

Nenad Miljkovic (left) and Evelyn Wang of Mechanical Engineering are designing a specially adapted solar energy collector that will simultaneously produce electricity and steam or hot water at wide-ranging temperatures suited for home or industrial use. This research was supported in part by the MIT Solid-State Solar-Thermal Energy Conversion Center, an Energy Frontier Research Center funded by th...

Harnessing solar energy

Novel approach yields both electricity and heat.

December 13, 2012

From left to right, Adrian Tanner, David Wise, Jacqueline Sly, Tommy Moriarty and Ed Moriarty (Tommy’s father) hold their underwater glider on the Jack Cotant boat in Ketchikan, Alaska.

Aiming deep with the Marine Robotics Team

Jacqueline Sly ’14 and Tommy Moriarty ’14 discuss their experiences and lessons learned leading the Marine Robotics Team.