Nanoscience and nanotechnology

New MIT School of Engineering faculty for 2015-2016

New engineering faculty for 2015-2016

The School of Engineering welcomes 18 new faces.

October 28, 2015

Researchers found that sections of metal can be made to either promote bubbling (the two rectangles at the edges) or to inhibit bubbling (center rectangles), simply by switching the polarity of voltages applied to the metal.

Bubble, bubble, at the flick of a switch

Researchers find a way to control the bubbles of boiling water using a small electric charge.

October 26, 2015

This image shows abrupt de-pinning and de-stabilization of a line defect due to repeated cyclic loading. Figure (a) shows the evolution of nominal tensile stress during two loading and unloading cycles. Figures (b) to (f) are still frames from a video that correspond to the stress state marked in (a), where the white dashed lines indicate the original defect location, and the colored dashed lines ...

Metal defects can be eliminated by cyclic loading

Finding shows small amounts of repeated stretching can eliminate crystal defects in nanoscale metal parts.

October 21, 2015

Alan Stern, principal investigator of NASA’s New Horizons mission to the Kuiper belt, spoke at ScienceWriters2015 about mission results from a Pluto flyby in July and communications strategies.

Bringing “the greatest show in the universe” to the people

MIT hosts national ScienceWriters2015 conference.

October 15, 2015

Rendering of a virus used in the MIT experiments. The light-collecting centers, called chromophores, are in red, and chromophores that just absorbed a photon of light are glowing white. After the virus is modified to adjust the spacing between the chromophores, energy can jump from one set of chromophores to the next faster and more efficiently.

Quantum physics meets genetic engineering

Researchers use engineered viruses to provide quantum-based enhancement of energy transport.

October 14, 2015

Researchers created pores in a graphene sheet (in purple) and then placed it over a layer of silicon nitride (in blue) that had been punctured by an ion beam. This allows specific hydrated ions, which are surrounded by a shell of water molecules, to pass through.

Big range of behaviors for tiny graphene pores

Like biological channels, graphene pores are selective for certain types of ions.

October 5, 2015

Left to right, Michael Tarkanian stands with Alexandra Sourakov and Ahmed Al-Obeidi

Biomimetic non-reflective coating for solar cells wins MADMEC

Team wins $10,000 at annual competition for invention inspired by butterfly wings.

September 29, 2015

Thomas McKrell, research scientist in the MIT Department of Nuclear Science and Engineering

A passion for learning in the lab

Thomas McKrell designs, builds, and supervises nuclear science and engineering laboratory projects, and readies students for careers in research.

September 22, 2015

How to make large 2-D sheets

MIT-led team develops method for scaling up production of thin electronic material.

September 21, 2015

Yang Shao-Horn (center), professor of mechanical engineering and materials science and engineering at MIT, examines an experimental lithium-air battery with graduate students Yi-Chun Lu (right) Koffi Pierre Claver Yao.

A day in the sun

MIT Solar Day brings the MIT community together to preview the coming decades of solar energy innovation.

September 16, 2015

A new carbon-based catalyst can bond to the edges of two-dimensional sheets of graphene.

Inexpensive new catalysts can be fine-tuned

Material could replace precious metals and produce precisely controlled electrochemical reactivity.

September 16, 2015

A schematic drawing of how a ring of exceptional points (shown in white) can be spawned from a Dirac point (a dot), and thus change the dispersion from the normal, widely known conical shape into an exotic lantern-like shape

How to spawn an “exceptional ring”

Researchers create exotic states that could lead to new kinds of sensors and optical devices.

September 9, 2015

Hand in purple latex gloves holds a cylindrical metal device.

Bubble, bubble … boiling on the double

New analysis of textured surfaces could lead to more efficient, and less dangerous, power plants.

September 8, 2015

Luminescent materials produced by the MIT team are shown under ultraviolet light, emitting different colors of light that can be modified by their environmental conditions.

Metallic gels produce tunable light emission

New family of luminescent materials could find broad uses in chemical and biological detectors.

September 3, 2015

Nuts, bolts, and slurry walls

A how-it’s-made seminar series shines light on MIT.nano, an historic campus construction project.

August 26, 2015

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