Biochar, a carbon-rich material made from agricultural waste, has long been valued for improving soil and capturing carbon.

Electron transfer processes underpin the quest to develop sustainable energy systems by emulating the natural photosynthetic machinery. Artificial photosynthesis seeks to convert solar energy into ...

Ruthenium complexes occupy a central position in modern inorganic chemistry, largely due to their rich coordination chemistry and their inherent capability to mediate complex electron transfer events.

Polydopamine nanosheets mimic natural photosynthesis, improving charge separation and stability for efficient hydrogen production in solar fuel applications.

A new study reveals how an advanced iron-modified biochar can harness the natural chemistry of soils to break down persistent ...

Perovskites with an ABO 3 structure, where A represents divalent and B tetravalent metal cations, are widely used in fields like dielectrics, ferroelectrics, magnetics, and energy storage. Their high ...

Electron transfer is an elementary process in which an electron is transferred or relocated from a donor molecule or atom to another such entity, called the acceptor. This process is fundamental to ...

Researchers have made a meaningful advance in the simulation of molecular electron transfer -- a fundamental process underpinning countless physical, chemical and biological processes. The study ...

Electron transfer is enhanced by minimal energetic driving force at the organic-semiconductor interface in upconversion (UC) organic light emitting diodes (OLEDs), resulting in efficient blue UC-OLEDs ...