Researchers demonstrate a new production method for electrocatalysts: a fast, low-temperature synthesis of special ceramic materials (high-entropy oxides). The results could make the electrolysis of water and the associated hydrogen production more energy-efficient in the future.
Researchers achieved an unprecedented advance in antenna technology by making possible the manipulation of all five fundamental properties of electromagnetic waves through software control.
For the first time, researchers take advantage of an unintuitive quantum process that disregards the conventional notion of causality to improve the performance of so-called quantum batteries, bringing this future technology a little closer to reality.
A novel method to create ultra-thin P3HT nanofibers with enhanced light harvesting and charge transport properties could potentially revolutionize organic solar cell efficiency and contribute to sustainable energy solutions.
In a breakthrough, scientists developed a copolymer-conjugated nanocatalytic system, likely paving the way for efficient photoinduced hydrogen generation.
Researchers found that when carbon and nitrogen precursors were subjected to extreme heat and pressure, the resulting materials - known as carbon nitrides - were tougher than cubic boron nitride, the second hardest material after diamond.
Scientists report the successful embedding of fluorescent nanodiamonds in microstructures using two-photon polymerization, a method with potential applications in photonics and quantum technology.
