High symmetry metallosupramolecular architectures (MSAs) have been exploited for a
range of applications including molecular recognition, catalysis and drug delivery. Recently …

Halide photoredox chemistry is of both practical and fundamental interest. Practical
applications have largely focused on solar energy conversion with hydrogen gas, through …

Chloride oxidation has tremendous utility in the burgeoning field of chlorine-mediated C–H
activation, yet it remains a challenging process to initiate with light because of the …

The prevalence of antibiotic-resistant pathogenic bacteria poses a significant threat to public
health and ranks among the principal causes of morbidity and mortality worldwide …

The excited states of the series [Ru (tpy)(L)(CH3CN)] n+(1–11)(n= 1, 2) containing bidentate
ligands L with varying electron-donating ability were characterized through Arrhenius …

The mechanism of a visible light-driven dehalogenation/cyclization reaction was
investigated using ruthenium (II), iridium (III) and iron (III) photosensitizers by means of …

Higher nuclearity photosensitizers produced dehalogenation yields greater than 90% in the
reported [Ru (bpy) 3] 2+-mediated dehalogenation of 4-bromobenzyl-2-chloro-2 …

The standard one-electron reduction potentials of halogen atoms, E°′(X•/–), and many
other radical or unstable species, are not accessible through standard electrochemical …

A series of 12 Ru (II) complexes of the type [Ru (tpy)(L)(CH3CN)] n+, 1–12, containing the
tridentate tpy ligand (tpy= 2, 2′: 6′, 2 ″-terpyridine) and various bidentate ancillary …

A detailed photophysical investigation of two dinuclear ruthenium (II) complexes is reported.
The two metallic centers were coordinated to a bis-2, 2′-bipyridine bridging ligand …