Materials processing

Visiting graduate student Ryan Oliver with a microscope. Oliver's projects under associate professor of mechanical engineering A. John Hart include the Robofurnace, an automated system for making carbon nanotube forests and studying their growth, and high-throughput manufacturing of polymer microstructures for biosensing.

Improving carbon nanotube consistency in the lab

Bench-top 'Robofurnace' automates chemical vapor deposition process.

February 12, 2014

Shown here are examples of micro shapes polymerized by ultraviolet light in polyethylene glycol diacrylate (PEG-DA).

Shining a light on tiny polymer shapes

Visiting graduate student studies high-throughput manufacturing of precisely shaped microparticles.

February 11, 2014

Professor A. John Hart with a folding paper cylinder. Paper's ability to fold and unfold many times and retain its integrity is a motivation for Hart's work on origami-inspired engineering.

Faculty highlight: A. John Hart

Mechanical engineering professor explores the science and technology of nano manufacturing.

February 5, 2014

Cross-sectional view of an operating solar thermophotovoltaic (STPV) device shows the glowing side of the absorber/emitter substrate. By using photonic crystals and controlling absorption and emission wavelengths, Andrej Lenert and colleagues at MIT were able to maximize heat to electric conversion and minimize energy loss.

Enhancing solar cells with heat

Thermophotovoltaic system converts high heat to narrow spectrum tailored to solar cell profile

November 7, 2013

Associate Professor of Mechanical Engineering Evelyn Wang (center), post-doctoral associate Nenad Miljkovic (left) and graduate student Andrej Lenert (right) pose with the solar thermal photovoltaic experimental system.

Faculty highlight: Evelyn Wang

Device Research Laboratory scientists aim to control changes in phase of gases and liquids to reduce power consumption in heating and cooling systems.

November 4, 2013

Advances in materials driving new technologies

Quantum dots for lighting and television, specialty fibers for surgery, highlighted at annual MPC Materials Day

November 1, 2013

MIT researchers to play key roles in new Center for Integrated Quantum Materials

Professor Raymond C. Ashoori will serve as co-principal investigator in the Harvard-led effort to develop new devices for quantum computing.

September 30, 2013

Caroline Ross uses models to demonstrate the crystal structures of complex metal oxides, such as spinel and perovskite phases.

Faculty highlight: Caroline Ross

New techniques for combining complex oxide thin films promise electrical control of magnetic properties for data storage and computing.

September 27, 2013

Sam Crawford explains his groundbreaking research into controlling nanowire growth in the Laboratory for Nanophotonics and Electronics at MIT.

Controlling the growth of semiconducting nanowires

MIT doctoral candidate Sam Crawford has contributed to fundamental understanding of growth processes using metal seed particles.

September 13, 2013

MIT doctoral student Sunny Wicks holds samples of carbon nanotube-strengthened cloth.

Strengthening aerospace laminates

MIT PhD student demonstrates toughening with aligned carbon nanotubes.

August 13, 2013

MIT Associate Professor of Aeronautics and Astronautics Brian L. Wardle

Building stronger multifunctional composites

Carbon nanotube deicing technologies developed at MIT could be in flight tests as early as next year.

August 12, 2013

Wesley Hong in the Electrochemical Energy Lab of MIT Professor Yang Shao-Horn.

Tuning metal-oxygen bond strength

Controlling spin state through strain could lead to better cathodes for solid oxide fuel cells

August 5, 2013

MIT materials science graduate student Wesley T. Hong in the lab.

Transition metal oxide catalysts

Hong works to map dynamic oxidation reactions

July 24, 2013

Michael Rubner explains his lab's research into layer-by-layer deposition of polymers that create color by selective composition of materials, much like a butterfly's wing, to a group of Summer Scholars.

A summer to explore science

Collegiate scholars immerse themselves in MIT research labs

July 11, 2013

MIT graduate researchers Robert Mitchell and Betar Gallant connect a Li-air battery used to prepare the samples for in-situ Transmission Electron Microscope (TEM) characterization.

Research update: Team observes real-time charging of a lithium-air battery

Imaging reveals what happens during charging; could lead to improved batteries for electric cars.

May 13, 2013

MIT News | Massachusetts Institute of Technology

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