Tiny material differences are crucial for the functional behavior of memristive devices.
Nanotechnology News from Nanowerk
Tiny material differences are crucial for the functional behavior of memristive devices. • Email to a friend • So far, quantum spin liquids have usually only been found in one or two dimensional magnetic systems. Now scientists have found spin liquid behaviour in 3D, due to a so called hyper hyperkagome lattice. • Email to a friend • New research is ensuring white wines will always look their best as novel magnetic nanotechnology is proving to quickly and efficiently remove haze-forming proteins in white wine. • Email to a friend • Triangulene is a triangular graphene flake, which possesses a net magnetic moment: it is a graphene nanometer-size magnet. This magnetic state opens fascinating perspectives on the use of these pure-carbon magnets in technology. • Email to a friend • Researchers have shown another remarkable property of nanocelluloses: their strong binding properties to form new materials with any particle. • Email to a friend • Some light-emitting diodes (LEDs) created from perovskite, a class of optoelectronic materials, emit light over a broad wavelength range. Scientists have now shown that in some cases, the explanation of why this happens is incorrect. • Email to a friend • Linking multiple copies of these devices may lay the foundation for quantum computing. • Email to a friend • Scientists have succeeded to observe switching processes at previously unattained nanometer resolution. It opens the door towards new and innovative ultra-high-resolution displays of the future. • Email to a friend • Researchers exploited for the first time cellular self-recognition process for targeting glioblastoma cells with boron nitride nanotubes (BNNTs), a biocompatible, yet inorganic, nanomaterial. The team loaded the BNNTs with doxorubicin, a powerful chemotherapy drug, and then functionalized them with glioblastoma cell membranes This targeting approach benefits from the ability of cancer cells to recognize each other due to similarities present on their membrane that make them different from healthy cells. • Email to a friend • Researchers have synthesized branched polymer crystals that are tough enough to be used as tiny laser sources. • Email to a friend • Researchers have conducted a theoretical study of the effects of defects in graphene on electron transfer at the graphene-solution interface. Their calculations show that defects can increase the charge transfer rate by an order of magnitude. • Email to a friend • |
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