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 ...

Findings indicate that tuning an electrode's density of states can optimize reorganization energy, improving charge-transfer ...

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 ...

Microbes are masters of survival, evolving ingenious strategies to capture energy from their surroundings. For decades, scientists believed that only a handful of bacteria used specialized molecular ...

Indian scientists developed a cadmium-free CIS thin-film solar cell using indium oxide as an electron transport layer, achieving a simulated efficiency of 29.79% with SCAPS-1D modeling. Through ...

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 transport in bilayer graphene exhibits a pronounced dependence on edge states and a nonlocal transport mechanism, according to a recent study. Electron transport in bilayer graphene exhibits ...

A new study reveals that a specially engineered form of biochar can dramatically enhance the natural ability of soil microbes to break down pollutants in rice paddies, offering a promising strategy ...

Scientists from the University of Minnesota and University of Houston have directly measured the fraction of an electron exchanged between molecules and catalyst surfaces, a phenomenon critical to ...

Photoluminescence spectroscopy reveals electron temperature profiles in GaAs, highlighting hydrodynamic transport and ...