Seated at the head of the periodic table, hydrogen is the lightest element, a minimalist atom consisting only of a proton and an electron.

— Future research can see if the proton may also intrinsically possess the two heaviest quarks — bottom, which has a mass of about 4,200 million electron-volts, and top, which has a mass of ...

The performance of a fuel cell—a device that converts chemical energy into electrical energy—depends on how well the ions can ...

Proton-coupled electron transfer (PCET) reactions play a vital role in a wide range of electrochemical processes. This talk will focus on theoretical studies of molecular and heterogeneous ...

Importantly, the electron and proton transfer pathways in [FeFe]-hydrogenases are well separated from each other in space. Variants with conservative substitutions (glutamate to aspartate) in either ...

The Chlamydomonas reinhardtii proton gradient regulation5 (Crpgr5) mutant shows phenotypic and functional traits similar to mutants in the Arabidopsis (Arabidopsis thaliana) ortholog, Atpgr5, ...

Natural photosynthesis provides an ideal model with well-matched molecule-electron-proton transfer, which would help to shed light on the molecule-electron-proton transfer phenomenon in EPCS.

This proton-coupled electron transfer (PCET), as it is known, does not produce any change in charge – the most efficient way for a redox reaction to occur.

The performance of a fuel cell -- a device that converts chemical energy into electrical energy -- depends on how well the ...

Abstract Proton-coupled electron transfer (PCET) reactions play a vital role in a wide range of chemical and biological processes. Recent advances in the theory of PCET will be presented.