Electronic properties news, July 2020

Doped graphene nanoribbons could offer breakthrough in quantum computing

Doped graphene nanoribbons could help in quantum computing

Graphene promises metal-free wearable electronics

graphene antennas could offer a flexible metal-free option for wearable electronics

Call for Nominations: EnSM Award and EnSM Young Scientist Award

Quantum fluid found in ‘dirty’ 2D semiconductor

For the first time, researchers have observed a quantum fluid known as the fractional quantum Hall state in a 2D semiconductor.

Three-in-one instrument can probe quantum materials

Scientists have developed a novel instrument for studying quantum materials that can make three kinds of atom-scale measurements simultaneously.

New flexible CNT film can heat, cool and generate electricity

A carbon nanotube film possesses a combination of thermal, electrical and physical properties that could make it of use for next-generation smart fabrics.

Novel coating makes plastic conductive and more transparent

Researchers have developed a three-layer anti-reflection coating for making plastic sheets conductive and more transparent.

New model reveals how material nanostructure affects conductivity

A computational model for understanding how changes in material nanostructure affect conductivity could lead to new energy storage devices.

Biomaterials Science 4th Edition

Misaligned 2D materials offer novel form of computer memory

Researchers have developed a novel form of non-volatile computer memory, based on sliding atomically thin layers of metal over one another.

Micro-patterned perovskite solar cells trap light better

micropatterned substrate boosts perovskite light absorption

Recipients of the 2019 Acta Student Awards

Smashing new technique for creating heterostructured materials

A new technique for making heterostructured materials uses ball milling to smash structurally incommensurate solids and then reassemble them.

Building smart medicines with self-assembling nanoparticles

Smart medicines could generate drugs and imaging agents when they come into contact with diseased tissues

The magic quantum world of twisted bilayer graphene

Magic-angle quantum effects in twisted bilayer graphene

Two for the price of one material

Topological insulators

New production method rubs 2D heterostructures up the right way

Researchers have developed a new abrasion-based method for producing heterostructure devices based on 2D materials such as graphene.