Researchers developed a fast, accurate method using Bayesian inference to identify electron charge states in quantum dots for ...

Researchers transformed red marker ink into graphene-based circuits using a laser, enabling low-cost, flexible electronics on ...

Researchers have created a manganese-based nanozyme that enables both near-infrared imaging and precise catalytic treatment ...

New study explores the key mechanisms that allow certain organic photovoltaic cells to maintain high efficiency even when the ...

Researchers developed advanced aerogel composites that combine high-temperature insulation with mechanical load-bearing ...

Researchers use DNA to assemble mixed-dimensional nanostructures with tunable optical properties, enabling scalable ...

Researchers created a flexible thermoelectric generator using sponge-like carbon nanotubes to efficiently power small ...

Researchers showed they can inexpensively produce silk microneedles to deliver vitamins or agrochemicals to plants.

A silver single-atom chain demonstrates atomic-scale strain sensing and piezoresistive effects, advancing nanotechnology and ...

A new study is challenging the understanding of planetary disk formation around young stars. It reveals that the environment ...

Researchers demonstrate that even small, noisy quantum circuits can outperform certain types of classical computation, without relying on assumptions or ideal conditions.

XY flexure-guided piezo nanopositioning stage delivers ultra-precise motion, long-term stability, and travel to 1500 microns.