info:eu-repo/semantics/article
Nickel(II) complexes based on L-amino-acid-derived ligands: Synthesis, characterization and study of the role of the supramolecular structure in carbon dioxide capture
Fecha
2020-09Registro en:
Rivas Marquina, Andrea Paola; Movilla, Federico; Sanchez Montilva, Olga Carolina; Rentschler, Eva; Carrella, Luca; et al.; Nickel(II) complexes based on L-amino-acid-derived ligands: Synthesis, characterization and study of the role of the supramolecular structure in carbon dioxide capture; International Union of Crystallography; Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials; 76; 5; 9-2020; 825-838
2052-5206
CONICET Digital
CONICET
Autor
Rivas Marquina, Andrea Paola
Movilla, Federico
Sanchez Montilva, Olga Carolina
Rentschler, Eva
Carrella, Luca
Alborés, Pablo
Di Salvo, Florencia
Resumen
The formation of the symmetrical 3-carbonate-bridged self-assembled trinuclear NiII complex Na2{[Ni(LO)2(H2O)]3(3-CO3)} (LO is the carboxylate anion of a l-tyrosine derivative), involves atmospheric CO2 uptake. The asymmetric unit of the complex comprises an octahedral coordination for the NiII with two l-tyrosine-based ligands, a water molecule and one O atom of the carbonate bridge. The Ni3–3-CO3 core in this compound is the first reported of this kind according to the Cambridge Structural Database (CSD). The supramolecular structure is mainly sustained by hydrogen bonds developed by the phenolic functionality of the l-tyrosine moiety of one ligand and the carboxylate group of a neighbouring ligand. The crystal packing is then characterized by three interpenetrated supramolecular helices associated with a diastereoisomer of the type RsupP, which is essential for the assembly process. Magnetic susceptibility and magnetization data support weak ferromagnetic exchange interactions within the novel Ni3–3-CO3 core. The NiII complex obtained under the same synthetic conditions but using the analogous ligand derived from the amino acid l-phenylalanine instead of l-tyrosine gives rise to to a mononuclear octahedral system. The results obtained for the different complexes demonstrate the role of the supramolecular structure regarding the CO2 uptake property for these NiII–amino-acid-based systems.