Researchers have developed a method of 'wiring up' graphene nanoribbons (GNRs). Using a direct-write scanning tunneling microscopy based process, the nanometer-scale metal contacts were fabricated on individual GNRs and could control the electronic character of the GNRs.
Scientists have identified a novel pathway to stabilize the nanoscale precipitates in alloys. They show that it is possible to utilize nonequilibrium processes to stop precipitate coarsening, which results in stable nanostructures.
Researchers have created a special 2D material material that exhibits a metallic character. It consists of just one atomic layer of molybdenum atoms and is also referred to as molybdenene.
This innovative hybrid silicon photocatalyst utilizes solar power to produce hydrogen and high-value compounds efficiently, marking a major step forward in green hydrogen production technology.
Scientists used neutron crystallography to image all of the atoms in a radical intermediate of a copper amine oxidase enzyme. They disclosed previously unknown details, such as precise conformational changes, that help to explain the enzyme's biochemistry.
A nanoscale ink coating of aluminium oxide on metal halide perovskite improves the potential of this emerging photovoltaic technology and stabilises the drop in energy output which currently plagues perovskite technology.
Researchers have made microcombs ten times more efficient. Their breakthrough opens the way to new discoveries in space and healthcare and paves the way for high-performance lasers in a range of other technologies.
Researchers develop a new manufacturing strategy to generate tunable, durable and cell-friendly biomimetic matrices that closely recreate the multiscale structure and bioactivity of the extracellular matrix.
