Category Physics

Nanoclusters of magnesium oxide sandwiched between layers of graphene make a compound with unique electronic and optical properties, according to researchers at Rice University who made computer simulations of the material. Credit: Lei Tao/Rice University

Rice University researchers simulate 2D hybrids for optoelectronics. Rice University researchers have modeled a nanoscale sandwich, the first in what they hope will become a molecular deli for materials scientists. They put 2 slices of atom-thick graphene around nanoclusters of magnesium oxide that give the super-strong, conductive material expanded optoelectronic properties.

Rice materials scientist Rouzbeh Shahsavari and his colleagues built computer simulations of the compound and found it would offer features suitable for sensitive mo...

This is an image of the change in luminescence colors of MCL materials. Credit: Youhei Takeda

Mechanochromic luminescent (MCL) materials change their color in response to a change in their environment, like pressure and temperature. To date, most MCL materials only change between 2 colors, limiting their applications. The international research team comprising of chemists at Osaka University and physicists at Durham University has developed tricolor-changing MLC materials. Not only that, the developed materials exhibited efficient thermally activated delayed fluorescence (TADF) and allowed high performance organic light-emitting diodes (OLEDs) devices.

“Most MCL materials generate 2 colors by switching between a stable state and one metastable state...

1. Metamaterial bricks are assembled into a layer to produce a meta-surface, which could have applications across healthcare and entertainment
2, These space coiling bricks act to slow down sound waves, meaning that they can be transformed into any required sound field.

A super-material that bends, shapes and focuses sound waves that pass through it has been invented by scientists. Metamaterials have already shown remarkable results with light manipulation, allowing scientists to create a real-life version of Harry Potter’s invisibility cloak, for example. But a Universities of Sussex and Bristol team have now shown that they also work with sound waves, which could transform medical imaging and personal audio.

Finely shaped sound fields are used in medical imaging and therapy as well as in ...

The buckling-induced cubic patterned kirigami sheet can be folded flat (Image courtesy of Ahmad Rafsanjani/Harvard SEAS)

Origami-inspired materials use folds in materials to embed powerful functionality. However, all that folding can be pretty labor intensive. Now, researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) are drawing material inspiration from another ancient Japanese paper craft—kirigami. Kirigami relies on cuts, rather than folds, to change the structure and function of materials.

In a new paper published in Physical Review Letters, SEAS researchers demonstrate how a thin, perforated sheet can be transformed into a foldable 3D structure by simply stretching the cut material...