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|Title:||Density functional theory study of the oxoperoxo vanadium(V) complexes of glycolic acid. Structural correlations with NMR chemical shifts||Authors:||Justino, Licínia L. G.
Ramos, M. Luísa
Burrows, Hugh D.
Gil, Victor M. S.
|Issue Date:||2009||Publisher:||Royal Society of Chemistry||Citation:||Dalton Transactions. (2009) 9735-9745||Abstract:||The DFT B3LYP/SBKJC method has been used to calculate the gas-phase optimized geometries of the glycolate oxoperoxo vanadium(V) complexes [V2O2(OO)2(gly)2]2-, [V2O3(OO)(gly)2]2- and [VO(OO)(gly)(H2O)]-. The 51V, 17O, 13C and 1H chemical shifts have been calculated for the theoretical geometries in all-electron DFT calculations at the UDFT-IGLO-PW91 level and have been subsequently compared with the experimental chemical shifts in solution. In spite of being applied to the isolated molecules, the calculations allowed satisfactory reproduction of the multinuclear NMR solution chemical shifts of the complexes, suggesting that the theoretical structures are probably close to those in solution. The effects of structural changes on the 51V and 17O NMR chemical shifts have been analysed using the referred computational methodologies for one of the glycolate complexes and for several small molecules taken as models. These calculations showed that structural modifications far from the metal nucleus do not significantly affect the metal chemical shift. This finding explains why it is possible to establish reference scales that correlate the type of complex (type of metal centre associated with a certain type of ligand) with its typical region of metal chemical shifts. It has also been found that the VO bond length is the dominant geometrical parameter determining both 51V and the oxo 17O in this kind of complex||URI:||http://hdl.handle.net/10316/12343||ISSN:||1477-9226||DOI:||10.1039/b910033d||Rights:||openAccess|
|Appears in Collections:||FCTUC Física - Artigos em Revistas Internacionais|
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