Materials science

Michael Short '05, SM '10, PhD '10, a research scientist in the Department of Nuclear Science and Engineering

Michael Short spans classroom, forge, reactor

November 13, 2012

This figure illustrates how the size diversity of cement nanoparticles allows them to pack together tightly, increasing the strength of the cement.

Size diversity in cement nanoparticles optimizes packing density to give concrete its strength

November 8, 2012

This electron-microscope image of a cross-section of a layered polymer shows the crater left by an impacting glass bead, and the deformation of the previously even, parallel lines of the layered structure as a result of the impact. In this test, the layered material was edge-on to the impact. Comparative tests showed that when the projectile hit head-on, the material was able to resist the impact ...

Stronger than a speeding bullet

New tests of nanostructured material could lead to better armor against everything from gunfire to micrometeorites.

November 7, 2012

In this simulation of a polymer network, the red segments represent polymers that have looped onto themselves.

A step toward stronger polymers

Counting loops that weaken materials could help researchers eliminate structural flaws.

November 5, 2012

The backing of the newly developed medical tape easily peels off, leaving the adhesive behind.

Taking the sting out of medical tape

New adhesive comes off quickly, sparing infants’ delicate skin from damage.

October 29, 2012

How to communicate science visually

In a new book, MIT’s Felice Frankel aims to help scientists and engineers improve the way they portray their research through photos, diagrams and graphs.

October 26, 2012

Whitehead Institute Founding Member and MIT Professor of Biology Rudolf Jaenisch, left, and Subra Suresh, the Vannevar Bush Professor of Engineering.

Jaenisch, Suresh named Franklin Institute laureates

October 22, 2012

On a surface patterned with tiny pillars (white squares), and with a coating of a lubricant liquid that fills the spaces between the pillars, dome-shaped droplets of water condense but remain free to move quickly across the surface, unlike on conventional flat surfaces or ones with just the patterning, where they tend to stay stuck in place. The new surface treatment could provide a significant bo...

A better way to shed water

MIT researchers find that lubricated, nanotextured surfaces improved performance of condensers in power and desalination plants.

October 22, 2012

Ju Li, a professor in MIT’s departments of materials science and engineering and nuclear science and engineering.

Profile: Ju Li explores new nanomaterials

Working from the scale of atoms on up, he designs materials for future energy applications.

October 10, 2012

A solid-state lithium-air battery (highlighted in orange) is positioned inside a test chamber at the Advanced Light Source (ALS) at Lawrence Berkeley National Laboratory, in preparation for its testing using X-ray photoelectron microscopy.

New technique reveals lithium in action

Fundamental reactions behind advanced battery technology, revealed in detail by advanced imaging method, could lead to improved materials.

October 8, 2012

A dislocation in a crystal lattice, a disconnected region in its structure (represented by the array of atoms shown in blue) can separate from the rest of the lattice at a rate determined by the potential energy of the system, represented by the wavy surface. To the left, the higher potential energy (shown in red) prevents the defect from moving in that direction, but to the lower right (shown in ...

Probing the mysteries of cracks and stresses

Analysis of molecular-level fracture and stress mechanisms could have broad implications for understanding materials’ behavior.

September 28, 2012

From left to right, Ronald Ballinger, Thomas McKrell, Bilge Yildiz, Dennis Whyte, Michael Short, Sidney Yip, Linn Hobbs and Ju Li.

Understanding and predicting materials behavior

Department of Nuclear Science and Engineering takes an interdisciplinary approach

September 26, 2012

Abstract graphic of pink circles and half circles on a purple background

Oscillating microscopic beads could be key to biolab on a chip

MIT team finds way to manipulate and measure magnetic particles without contact, potentially enabling multiple medical tests on a tiny device.

September 25, 2012

Musician and instrument designer Mark Stewart.

World-class musician Mark Stewart comes to the Glass Lab

In a yearlong residency, the musician and instrument designer will build a glass orchestra with MIT students.

September 14, 2012

From left to right, graduate student Sha Huang, Principal Research Scientist Ming Dao, Research Scientist Monica Diez-Silva.

Protein impedes microcirculation of malaria-infected red blood cells

MIT-led research team finds that protein significantly reduces infected cells’ ability to squeeze through tiny channels compared to healthy cells.

August 30, 2012

MIT News | Massachusetts Institute of Technology

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