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Synthesis, characterization and exploration of the catalytic, supramolecular and biological applications of dinuclear complexes
Auteur(s)
Johnpeter, Justin Paul Raj
Editeur(s)
Date de parution
2013
Mots-clés
- Carbonyl ligands
- Carboxylato bridges
- Fatty acids
- Dinuclear complexes
- Ruthenium
- Rhodium
- Iridium
- Fluorinated fatty acids
- Supercritical carbon dioxide
- Molecular recognition
- Porphyrin tweezers
- Pyrene tweezers
- Supramolecular chemistry
- Multinuclear complexes
- Photosensitizers
- Porphyrin ligand
- Bio-organometallic
- Photodynamic therapy
- Biologically active acids
Carbonyl ligands
Carboxylato bridges
Fatty acids
Dinuclear complexes
Ruthenium
Rhodium
Iridium
Fluorinated fatty aci...
Supercritical carbon ...
Molecular recognition...
Porphyrin tweezers
Pyrene tweezers
Supramolecular chemis...
Multinuclear complexe...
Photosensitizers
Porphyrin ligand
Bio-organometallic
Photodynamic therapy
Biologically active a...
Résumé
The work presented in this thesis involves the synthesis and characterization of dinuclear ruthenium, rhodium and iridium complexes. The catalytic, supramolecular and biological applications of these dinuclear complexes will be discussed. In the first part, the synthesis of sawhorse-type diruthenium tetracarbonyl complexes and their catalytic applications in the supercritical carbon dioxide (scCO<sub>2</sub>) are presented. Synthesis of sawhorse-type molecular tweezers derived from pyrenyl and porphyrin carboxylic derivatives are presented in the second part. The host-guest interactions between the sawhorse-type molecular tweezers with different guest molecules will be discussed. In the final part, the anticancer potential of dinuclear ruthenium, rhodium and iridium complexes are evaluated with different cancer cell lines.
Notes
Thèse de doctorat : Université de Neuchâtel, 2013
Identifiants
Type de publication
doctoral thesis
Dossier(s) à télécharger