Researchers have made a breakthrough in the transfer of 2D crystals, paving the way for their commercialization in next-generation electronics. This ground-breaking technique utilizes a fully inorganic stamp to create the cleanest and most uniform 2D material stacks to date.
Researchers have created a versatile bactericidal nanomaterial with a photochemical 'light switch' to selectively target and combat different bacterial infections, including multi-drug resistant strains like MRSA.
Researchers develop customizable photo-responsive films that sustain complex deformations, enabling rapid prototyping of resilient multifunctional soft robots for real-world applications.
New study details a polymer-grafting approach for creating surface-functionalized MOF nanosheets, highlighting a significant advancement in the field of material science and its potential impact on nanotechnology.
Researchers have developed a new material that replicates the structure responsible for the blue feathers of the North American song bird, among many other birds. It also has other striking advantages.
Researchers fired short terahertz pulses at micrometer-sized discs of graphene, which briefly turned them into surprisingly strong magnets. This discovery may prove useful for developing future magnetic switches and storage devices.
Scientists have taken snapshots of the crystal structure of perovskite nanocrystals as it was deformed by excited electrons. To their surprise, the deformation straightened out the skewed crystal structure rather than making it more disordered.
Researchers have created a new kind of triboelectric nanogenerator that produces electricity through the use of limestone putty, promising a considerable cost savings over conventional manufacturing methods.
Physicists store many different images at the same place in a diamond by using a laser of a slightly different color to store different information into different atoms in the same microscopic spots.
