A novel approach to fabricate individually addressable nanoscale organic light-emitting diodes (OLEDs) with improved stability and efficiency by strategically designing insulating layers to cover the edges and corners of metallic nanoelectrodes while leaving a nanoscale aperture in the flat areas.
Direct growth of high-quality graphene nanoribbons in hBN stacks enables the creation of high-performance electronic devices.
The author argues that by utilizing extendable protein building blocks with standardized geometric properties, it is now possible to design complex protein assemblies with ease and precision.
The author proposes a standardized workflow for evaluating flow-guided nanoscale localization to avoid incomplete performance results and inconsistencies in benchmarking experiments.