Self-assembling graphene makes wearable electronics modular and customizable
Researchers developed modular, self-assembling graphene sensors that enable versatile, reconfigurable wearable health electronics tailored to individuals.
Jan 28th, 2024Subscribe to our Nanotechnology Spotlight feed
Researchers developed modular, self-assembling graphene sensors that enable versatile, reconfigurable wearable health electronics tailored to individuals.
Jan 28th, 2024An electrically tunable graphene-based biosensor amplified by surface acoustic waves detects ultrathin protein, peptide and polymer layers at unprecedented resolution, even down to the single molecule limit.
Jan 23rd, 2024Researchers have produced exceptionally high-quality lanthanum oxychloride dielectric films perfect for constructing next-generation layered transistors compatible with two-dimensional semiconductors. The atomically smooth crystals integrate cleanly, enabling hysteresis-free switching.
Jan 19th, 2024Researchers demonstrate first 3D printed nanoengineered hydrogel electronic skin able to simultaneously and sensitively monitor dynamic changes in mechanical strain, pressure, and temperature comparable to natural human skin.
Jan 18th, 2024Fracturing graphene sheets smaller than 1 nanometer via mechanical ball milling generates exotic transient energy states that greatly intensify light absorption and emission.
Jan 17th, 2024This perspective highlights the potential of MAX, MXenes, bare MXenes, and MX to revolutionize catalyst development in the chemical industry.
Dec 28th, 2023Researchers develop an AI technique called Material Transformer Generator that integrates composition generation, structure prediction, and stability analysis to automatically design promising new two-dimensional materials.
Dec 25th, 2023Exploring a novel method for transferring laser-induced graphene at low temperatures, vital for advancing ultrathin, flexible bioelectronics.
Dec 22nd, 2023