To address the ever‐increasing societal demand for clean energy, electrocatalytic water
splitting has attracted considerable interest for the efficient production of H2 and O2 …

The reaction of Li [(TAML) CoIII]· 3H2O (TAML= tetraamido macrocyclic tetraanionic ligand)
with iodosylbenzene at 253 K in acetone in the presence of redox-innocent metal ions (Sc …

Water electrolysis is the simplest way to produce hydrogen, as a clean renewable fuel.
However, the high overpotential and slow kinetics hamper its applicability. Designing …

Herein, we present a stable water‐soluble cobalt complex supported by a dianionic 2, 2′‐
([2, 2′‐bipyridine]‐6, 6′‐diyl) bis (propan‐2‐ol) ligand scaffold, which is a rare example of …

Molecular cobalt (III) complexes of bis-amidate-bis-alkoxide ligands,(Me4N)[CoIII (L1)](1)
and (Me4N)[CoIII (L2)](2), are synthesized and assessed through a range of characterization …

A cationic manganese porphyrin, MnIII-TDMImP, is an efficient, homogeneous, single-site
water oxidation electrocatalyst at neutral pH. The measured turnover frequency for oxygen …

A stable water-soluble mononuclear manganese clathrochelate complex [MnIV (L-6H)] 2− is
utilized as an electrocatalyst for water oxidation in phosphate buffer solution at pH 8.0 …

Efficient water oxidation catalysts are highly desired because of their great significance for
overall water splitting, which is a promising strategy to produce hydrogen on a large scale …

The electrochemical water splitting by transition metal complexes is emerging very rapidly.
The nickel complexes also play a very vital role in various biological activities. Here, three …

Electrochemical water oxidation catalyzed by a cobalt complex,[Co (N3Py2)(H2O)](ClO4) 2
(1)(N3Py2= 2, 5, 8-trimethyl-1, 9-bis (2-pyridyl)-2, 5, 8-triazanonane), is reported. The …