Energy-momentum spectroscopy

Quantum materials tie themselves up in knots

Researchers have shown that knot theory can be used to understand the behavior of electrons in quantum materials such as topological magnets.

Novel spectroscopy technique focuses on phonons

Researchers have used a novel spectroscopy technique to map the dynamic behavior of phonons in quantum dots at atomic scale.

Symmetry breaking of twisted graphene is just a phase

Researchers have discovered a symmetry-breaking electronic nematic phase in twisted double bilayer graphene.

Ultrasound technology and biomaterials for precise drug therapy

Small-scale bonds lead to large-scale friction

Even at large scales, the amount of friction between two silicon surfaces is determined by microscopic chemical bonds between them.

Solid advance in understanding non-Newtonian fluids

Researchers have used piezoelectric nanoparticles to investigate the physical forces at play in non-Newtonian fluids.

Biodegradable iron has the strength to fix bone

porous iron has great potential as a scaffold for bone repair

Electricity flows faster in slightly bent organic semiconductor

A 1% bend in an organic semiconductor based on single crystals of the hydrocarbon rubrene can roughly double the speed of electrons flowing through it.