Computational (DFT) and Experimental (NMR) Study of the Chelation of an Iridium Hyperpolarization Transfer Catalyst by Amino Acids |
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Authors: | BSc Mathijs J Bouma Ing Ruud L E G Aspers Dr Marco Tessari Prof?Dr Floris P J T Rutjes Dr Roan Fraser Dr Martin C Feiters |
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Institution: | Institute for Molecular Materials, Faculty of Science, Radboud University, Heyendaalseweg 135, 6525 AJ Nijmegen (The, Netherlands |
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Abstract: | Non-hydrogenative Para-Hydrogen Induced Hyperpolarization (nhPHIP) is a Nuclear Magnetic Resonance (NMR) hyperpolarization technique which has experimentally been used to analyze complex biological samples containing amino acids using the Ir-IMes hyperpolarization transfer catalyst. A computational study based on Density Function Theory (DFT) was performed on all relevant stereoisomers of Ir(H)2(IMes)(AA)(Py)] (with AA=glycine, alanine, valine; Py=pyridine), for which R/S chirality and orientation of the amino acid chelation (C/A) were considered. A total of 30 structures were calculated comprising of 6 stereoisomers for achiral glycine, and 12 stereoisomers for each of the chiral amino acids. The abundances derived from the DFT energies confirmed the trends observed in thermal (non-hyperpolarized) NMR experiments. Additionally, theoretical calculations of electronic (Wiberg bond indices, Natural Bond Orders, Frontier Orbital Analysis), bond dissociation energies, transition states, and activation energies related to interconversion between binding modes, and steric factors (Solid angle) were performed to provide detailed explanations for NMR experimental observations. |
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Keywords: | amino acid density functional theory para-hydrogen induced hyperpolarization iridium nuclear magnetic resonance |
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