Abstract
Hypohalites are commonly generated in biological systems, mostly with functions related to defense and immune system response. These hypohalites can bind to metal centers and are known for their strong oxidizing properties that play crucial roles in various biological processes. Herein, we report the synthesis,
characterization and reactivity of novel biomimetic Ru(III)-hypochlorite
complexes and focus the work on the electronic effects associated with the incorporation of methyl groups in a pentadentate ligand framework in an asymmetric fashion. The intermediates are stable at room temperature and were characterized by mass spectrometry, UV-vis absorption, resonance Raman and EPR spectroscopy. We show for the first time that the resultant ruthenium-hypochlorite adducts function as an electrophilic oxidant and efficiently catalyze hydrogen atom abstraction reactions from phenol and oxygen atom transfer
reactions with dimethylsulfide.
characterization and reactivity of novel biomimetic Ru(III)-hypochlorite
complexes and focus the work on the electronic effects associated with the incorporation of methyl groups in a pentadentate ligand framework in an asymmetric fashion. The intermediates are stable at room temperature and were characterized by mass spectrometry, UV-vis absorption, resonance Raman and EPR spectroscopy. We show for the first time that the resultant ruthenium-hypochlorite adducts function as an electrophilic oxidant and efficiently catalyze hydrogen atom abstraction reactions from phenol and oxygen atom transfer
reactions with dimethylsulfide.
| Original language | English |
|---|---|
| Article number | e202403892 |
| Journal | Chemistry: A European Journal |
| Early online date | 10 Jan 2025 |
| DOIs | |
| Publication status | E-pub ahead of print - 10 Jan 2025 |
Keywords
- Oxygen atom transfer
- Hydrogen atom abstraction
- Electron transfer
- Biomimetic models
- Ruthenium complexes