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Formation of Iridium(III) and Rhodium(III) Amine, Imine, and Amido Complexes Based on Pyridine-Amine Ligands: Structural Diversity Arising from Reaction Conditions, Substituent Variation, and Metal Centers.

Xueyan HuLihua GuoMengqi LiuMengru SunQiuya ZhangHongwei PengFanjun ZhangZhe Liu
Published in: Inorganic chemistry (2022)
Herein, we present the different coordination modes of half-sandwich iridium(III) and rhodium(III) complexes based on pyridine-amine ligands. The pyridyl-amine iridium(III) and rhodium(III) complexes, the corresponding oxidation pyridyl-imine products, and 16-electron pyridyl-amido complexes can be obtained through the change in reaction conditions (nitrogen/adventitious oxygen atmosphere, reaction time, and solvents) and structural variations in the metal and ligand. Overall, the reaction of pyridine-amine ligands with [(η 5 -C 5 (CH 3 ) 5 )MCl 2 ] 2 (M = Ir or Rh) in the presence of adventitious oxygen afforded the oxidized pyridyl-imine complexes. The possible mechanism for the oxidation of iridium(III) and rhodium(III) amine complexes was confirmed by the detection of the byproduct hydrogen peroxide. Moreover, the formation of pyridyl-amine complexes was favored when nonpolar solvent CH 2 Cl 2 was used instead of CH 3 OH. The rarely reported complex with [(η 5 -Cp*)IrCl 3 ] anions can also be obtained without the addition of NH 4 PF 6 . The introduction of the sterically bulky i -Bu group on the bridge carbon of the ligand led to the formation of stable 16-electron pyridyl-amido complexes. The pyridyl-amine iridium(III) and rhodium(III) complexes were also synthesized under a N 2 atmosphere, and no H 2 O 2 was detected in the whole process. In particular, the aqueous solution stability and in vitro cytotoxicity toward A549 and HeLa human cancer cells of these complexes were also evaluated. No obvious selectivity was observed for cancer cells versus normal cells with these complexes. Notably, the represented complex 5a can promote an increase in the reactive oxygen species level and induce cell death via apoptosis.
Keyphrases
  • hydrogen peroxide
  • cell death
  • cell cycle arrest
  • reactive oxygen species
  • room temperature
  • induced apoptosis
  • electron transfer
  • sensitive detection
  • quantum dots
  • solar cells
  • label free
  • visible light