Researchers created a sensor that is extremely sensitive and reliably linear over a broad range of applications, has high pressure resolution, and is able to work under large pressure preloads.
Researchers are advancing high-density memory storage with an innovative method to form block copolymer structures. By pushing boundaries with unique tetragonally packed inverted cylinders, these novel structures bring us one step closer to ultra-compact future memory devices.
Researchers have made a leap forward in tissue regeneration by creating a multi-levelled scaffold that encompasses properties of native bone on both the nano, micro and macro scale.
The results of this study should provide applications in chirality analysis and asymmetric photochemical reactions for biomolecules, chemical substances, and pharmaceuticals.
Chemists have constructed a novel two-dimensional electrically conductive metal-organic framework (MOF), a breakthrough that could help advance modern electronics and energy technologies.
