Higher intensity x-ray beams don't always give stronger diffraction patterns
Using ultrahigh-intensity x-ray beams can cause the intensity of diffraction patterns from samples to drop.
Mar 19th, 2024
Read moreUsing ultrahigh-intensity x-ray beams can cause the intensity of diffraction patterns from samples to drop.
Mar 19th, 2024
Read moreNew process can accelerate the production of complex materials needed to advance photonics technologies.
Mar 19th, 2024
Read moreExperiment shows heat and magnetic fields transform spin textures in devices, achieving low-energy skyrmion shifts at room temperature.
Mar 19th, 2024
Read moreBreakthrough in photoluminescence: Achieving >99% PLQY in gold-copper nanoclusters at room temperature, enabling advances in biomedical imaging.
Mar 18th, 2024
Read moreLeafhoppers| buckyball-shaped brochosomes with through-holes reduce light reflection, showcasing unique antireflection properties in nature.
Mar 18th, 2024
Read moreThis finding is expected to increase capacity of rechargeable batteries for electric vehicles and telecommunications equipment with two to few-layer graphene electrodes.
Mar 18th, 2024
Read moreResearchers have published groundbreaking work demonstrating, for the first time, the ability to recycle high-performance carbon nanotube sheets while preserving their shape, structural alignment, mechanical and electrical properties, and intrinsic flexibility.
Mar 18th, 2024
Read moreScientists have synthesized bulk van der Waals materials at near-room temperature (ranging from room temperature to 60 C), significantly reducing the energy consumption required for their fabrication by at least one order of magnitude.
Mar 18th, 2024
Read moreThe flexible perovskite panels have electrodes made of tiny carbon nanotubes. These can generate more power with greater efficiency and at a cost 70% lower than existing solar panels.
Mar 18th, 2024
Read moreMaterials scientists are shedding light on the intricate growth processes of 2D crystals, paving the way for controlled synthesis of these materials with unprecedented precision.
Mar 15th, 2024
Read moreA study introduces a novel method for calibrating the spring constant of FluidFM micropipette cantilevers, crucial for the accurate measurement of forces in microfluidic environments. This method addresses the limitations of current calibration techniques, offering a significant advancement in the field of force microscopy.
Mar 15th, 2024
Read moreA printable organic polymer that assembles into chiral structures when printed has enabled researchers to reliably measure the amount of charge produced in spin-to-charge conversion within a spintronic material at room temperature.
Mar 15th, 2024
Read moreNew etching process could enable the integration of electronics and photonics on a single chip, combining light sources and optical fibers.
Mar 15th, 2024
Read moreA newly developed method enables the synthesis of hundreds of new 2D materials.
Mar 15th, 2024
Read moreTumor-specific drug release through controlled endosomal escape.
Mar 14th, 2024
Read moreScientists developed a new nanoparticle treatment that significantly improves outcomes for severe burn-induced intestinal barrier disruption.
Mar 14th, 2024
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