Materials science

Researchers pioneer use of capsules to save materials, streamline chemical reactions

Wax capsule delivery systems can simplify a wide range of chemistry transformations.

August 12, 2015

Shiyi Zhang, a postdoc at the Koch Institute and the paper’s lead author, holds a ring-shaped device prototype (left), which can be folded into a swallowable capsule (right) for easy and safe oral delivery.

New material opens possibilities for super-long-acting pills

A pH-responsive polymer gel could create swallowable devices, including capsules for ultra-long drug delivery.

July 27, 2015

Yarn made of niobium nanowires, seen here in a scanning electron microscope image (background), can be used to make very efficient supercapacitors, MIT researchers have found. Adding a coating of a conductive polymer to the yarn (shown in pink, inset) further increases the capacitor’s charge capacity. Positive and negative ions in the material are depicted as blue and red spheres.

Tiny wires could provide a big energy boost

Yarns of niobium nanowire can make supercapacitors to provide a surge of energy when it’s needed

July 7, 2015

In the process called initiated chemical vapor deposition (iCVD), Heated wires (pink cylinders) cause “initiator” molecules (red) to split, and they then interact with the monomers (purple) used for coating, causing them to collect on the cooler surface below, where they react to form a polymer chain as they build up in a uniform coating (bottom right).

Explained: chemical vapor deposition

Technique enables production of pure, uniform coatings of metals or polymers, even on contoured surfaces.

June 19, 2015

Rachel Zucker, Christina Scheu, Alexander Müller

Modeling how thin films break up

Recent PhD recipient Rachel Zucker models phenomena collectively known as "dewetting" in microscale to nanoscale thin films.

June 18, 2015

De-stressing lithium batteries

Modeling mechanical stress in solid-state lithium batteries yields insights into battery microstructure for MIT postdoc Giovanna Bucci.

June 17, 2015

Polymer material produced by a 3-D printer includes soft, flexible material (clear or lighter tone) with particles of hard material (black) embedded, in predetermined arrangements. When the material is compressed, its surface become bumpy in a pattern determined by the hard particles.

Surfaces get smooth or bumpy on demand

MIT research produces soft material with controllable surface textures that can be varied by squeezing.

June 11, 2015

A new technique tunes friction between two surfaces, to the point where friction can vanish. MIT researchers developed a frictional interface at the atomic level. The blue corrugated surface represents an optical lattice; the red balls represent ions; the springs between them represent Coulomb forces between ions. By tuning the spacing of the ion crystal surface above to mismatch the bottom corrug...

Vanishing friction

In tuning friction to the point where it disappears, technique could boost development of nanomachines.

June 4, 2015

A new tool measures the distance between phonon collisions

Tabletop setup provides more nuanced picture of heat production in microelectronics.

June 1, 2015

Copper substrate is shown in the process of being coated with graphene. At left, the process begins by treating the copper surface, and, at right, the graphene layer is beginning to form. Upper images are taken using visible light microscopy, and lower images using a scanning electron microscope.

How to make continuous rolls of graphene

New manufacturing process could take exotic material out of the lab and into commercial products.

May 21, 2015

Translating thought to print

Researchers explore mechanics of silk to design materials with high strength and low density.

May 15, 2015

In a two-step process, engineers have successfully sealed leaks in graphene. First, the team fabricated graphene on a copper surface (top left) — a process that can create intrinsic defects in graphene, shown as cracks on the surface. After lifting the graphene and depositing it on a porous surface (top right), the transfer creates further holes and tears. In a first step (bottom left), the team...

Plugging up leaky graphene

New technique may enable faster, more durable water filters.

May 8, 2015

Researchers use numerical simulations to predict different patterns that may form as viscous threads fall onto a moving belt.

Boiling down viscous flow

A new simplified model predicts patterns that form from honey-like fluids.

April 22, 2015

This illustration depicts phonons "tunneling" from one lattice of sodium chloride to another. New research shows that phonons can reach across a gap as small as a nanometer, “tunneling” from one material to another to enhance heat transport.

Tunneling across a tiny gap

“Phonon tunneling” explains heat flow across nanometer-wide gaps, study finds.

April 7, 2015

Test sample of a monolithic perovskite-silicon multijunction solar cell produced by the MIT-Stanford University team.

New kind of “tandem” solar cell developed

Researchers combine two types of photovoltaic material to make a cell that harnesses more sunlight.

March 24, 2015

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