Nitric oxide (NO) is an important signaling molecule that is involved in a wide range of
physiological and pathological events in biology. Metal coordination chemistry, especially …

Hydrogen (H 2) is the most promising green energy resources to replace conventional fossil
fuels due to the high mass energy density and renewability. The hydrogen evolution reaction …

Molecular design to improve catalyst performance is significant but challenging. In enzymes,
residue groups that are close to reaction centers play critical roles in regulating activities …

GaIII chloride tetrakis (pentafluorophenyl) porphyrin (1) was synthesized and shown to be a
highly active and stable post-transition metal-based electrocatalyst for the hydrogen …

Identification of the distinctive electron paramagnetic resonance signal at g= 2.03 in the
yeast cells and liver of mice treated with carcinogens opened the discovery and …

As a source of clean and sustainable energy, reliable hydrogen production requires highly
efficient and stable electrocatalysts. In recent years, molybdenum disulfide (MoS2) has been …

Electrocatalytic proton reduction to form dihydrogen (H2) is an effective way to store energy
in the form of chemical bonds. In this study, we validate the applicability of a main‐group …

Single-atom catalysts (SACs) supported on carbon-based materials are very promising for
maximizing their electrocatalytic activity. However, carbon-based SACs are primarily bonded …

A series of cobalt bis (benzenedithiolate) complexes with varying benzenedithiolate
(general abbreviation: bdt2–) ring substitutions (S2C6X42–) were prepared and adsorbed …

The ubiquitous function of nitric oxide (NO) guided the biological discovery of the natural
dinitrosyliron unit (DNIU)[Fe (NO) 2] as an intermediate/end product after Fe nitrosylation of …