2024
DOI: 10.1021/acs.organomet.3c00430
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Rhodium(I) Complexes Containing the N^N^N-Chelating Ligand: Synthesis, Structure, and Biological Activity

Haoran Liang,
Wanlin Huang,
Xingke Xu
et al.

Abstract: Rhodium complexes have garnered extensive attention owing to their inherent potential for biological activity. The catalytic properties of Rh−N^N^N complexes have been investigated extensively, whereas there is a paucity of studies regarding their antitumor activity. In this study, we present four rhodium(I) complexes, each distinguished by a different anion. These complexes incorporate 2,6-bis(1,5-diphenyl-1H-pyrazol-3yl)pyridine as the tridentate N^N^N-chelating ligand and one carbonyl ligand. These complexe… Show more

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Cited by 3 publications
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“…Our particular interest to rhodium complexes stems partly from our experience in rhodium chemistry 82–84 and partly from appealing properties this metal shows in the C–H bond activation and catalysis, 85–91 photochemistry 92–107 and bioinorganic chemistry. 108–128 Along with the synthesis of HL 2,5 and HL 2,6 and their rhodium( iii ) complexes [RhL 2,5 (Solv)Cl 2 ]· n EtOH and [RhL 2,6 (Solv)Cl 2 ]· n EtOH , here we report the impact of isomerism on molecular and supramolecular structures of these compounds, on the photophysical properties of the rhodium( iii ) complexes and on the cytotoxic activity of the ligands and complexes. These experimental studies are supplemented by the theoretical investigation of photophysical properties of the complexes and by theoretical modelling of the sp 2 C–H bond activation which occurs upon the coordination of HL 2,5 and HL 2,6 to RhCl 3 .…”
Section: Introductionmentioning
confidence: 99%
“…Our particular interest to rhodium complexes stems partly from our experience in rhodium chemistry 82–84 and partly from appealing properties this metal shows in the C–H bond activation and catalysis, 85–91 photochemistry 92–107 and bioinorganic chemistry. 108–128 Along with the synthesis of HL 2,5 and HL 2,6 and their rhodium( iii ) complexes [RhL 2,5 (Solv)Cl 2 ]· n EtOH and [RhL 2,6 (Solv)Cl 2 ]· n EtOH , here we report the impact of isomerism on molecular and supramolecular structures of these compounds, on the photophysical properties of the rhodium( iii ) complexes and on the cytotoxic activity of the ligands and complexes. These experimental studies are supplemented by the theoretical investigation of photophysical properties of the complexes and by theoretical modelling of the sp 2 C–H bond activation which occurs upon the coordination of HL 2,5 and HL 2,6 to RhCl 3 .…”
Section: Introductionmentioning
confidence: 99%