Could the future of clean energy hinge on the spin of a single electron? A new scientific review suggests it might.

A research team has successfully visualized the ultrafast dynamics of quasi-particles known as excitons, which are generated in carbon nanotubes (CNTs) upon light excitation.

With higher efficiency and lower costs, perovskite–silicon tandem cells mark a breakthrough in solar tech. Can they truly ...

Researchers have developed what amounts to a programmable platform for quantum chirality that could provide new approaches to ...

A new platform for engineering chiral electron pathways offers potential fresh insights into a quantum phenomenon discovered by chemists—and exemplifies how the second quantum revolution is fostering ...

Understanding the proton-coupled electron transfer in the oxygen evolution reaction offers insights into enhancing hydrogen production from water splitting.

Pyrogenic carbon contains redox-active functional groups and polyaromatic carbon matrices that are both capable of transferring electrons. Several techniques have been explored to characterize the ...

The flavoenzymes flavin adenine dinucleotide-dependent glucose dehydrogenase (FAD-GDH) and oxidase (FAD-GOx) do not undergo direct electron transfer (DET) at conventional electrodes, because the ...

These polarity-configurable thin-film transistors (PC-TFTs) enable flexible, adaptive CMOS circuits suitable for wearables, ...

Photocatalysts are powerful materials that use light as a source of energy for operation, becoming indispensable materials in ...

Abstract An artificial leaf mimicking the function of a natural leaf has recently attracted significant attention due to its minimal space requirement ...