The discovery of topological electronic crystals in twisted graphene offers insights into electron dynamics, with potential implications for quantum computing.

Researchers engineered a DNA-nanoparticle motor achieving 30 nm/s speed, enhancing performance to rival natural motor ...

Innovative microfluidic platforms facilitate the study of cardiomyocyte function, offering valuable data for drug testing and ...

Chiral topological textures in BaTiO3 nanoislands demonstrate potential for electrical manipulation, enhancing prospects for ...

Rice University researchers reveal carbon nanotube fibers can be fully recycled, maintaining structure and properties, ...

LNPs are solid or semi-solid particles at room temperature. They are composed of a lipid core stabilized by surfactants or other agents. This lipid core provides a hydrophobic environment ideal for ...

XPANCEO, a deep tech company developing the next generation of computing through its first smart contact lenses, in collaboration with Nobel laureate Konstantin S. Novoselov (University of Manchester, ...

Chemists from Würzburg have developed a novel model system for selective ion transport. The system, composed of a stable double layer with a nanographene-confined cavity, demonstrates high selectivity ...

In a recent article published in Scientific Reports, researchers explored the green synthesis of zinc oxide nanoparticles (ZnO NPs) using the extract of Padina pavonica, a brown algae. They evaluated ...

Researchers at the University of Liverpool have developed a groundbreaking energy storage material using sustainable carbon nanomaterial, Gii. This innovation could enable smaller, more efficient ...

Nanomembranes are a type of nanomaterial with ultra-thin structures at the nanometer scale and lateral dimensions that can extend to millimeters or even centimeters. These membranes are strong enough ...