Predicting nanosystems with unanticipated properties can advance next-generation solar panels and electronics.
Materials based on clusters of atoms called “super-ions” may revolutionize the whole solar cell industry.
Superacid treatment of semiconductors could lead to atomically perfect transparent displays and energy-efficient computer chips.
Disentanglement reveals exotic magnetic properties in a ytterbium-based compound.
Scientists apprehended the atomic-scale, microscopic mechanism that limits light emission in LED lighting.
Computer-designed molecular complex can be used in halogen-free electrolytes for batteries with superior performance.
Junctions between conductive graphene and insulating nanotubes could lead to faster electronics and computers.
The orientation-dependent thermal properties of black phosphorous could be used to keep microchips cool and improve their efficiency.
Understanding how gold alloy cracks provides insight for material failures for nuclear power.
Gels made up of nanoparticles hold together due to their electrostatic interactions and collapse with agitation.
New metal nanomesh leads to super stretchable and transparent gold electrodes that don’t wear out.
First realization of a novel material that can conduct magnetic waves on its edge, but not within its bulk.
