Molecular recognition in molecular tweezers systems: quantum-chemical calculation of NMR chemical shifts |
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Authors: | Zienau Jan Kussmann Jörg Koziol Felix Ochsenfeld Christian |
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Institution: | Institut für Physikalische und Theoretische Chemie, Auf der Morgenstelle 8, Universit?t Tübingen, D-72076, Tübingen, Germany. |
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Abstract: | Quantum-chemical calculations for molecular tweezers systems are presented, where the focus is not only on the recognition process in the host-guest systems, but on the self aggregation of the tweezers host as well. Such intermolecular interactions influence the corresponding NMR spectra strongly by up to 6 ppm for proton chemical shifts, since ring-current effects are particularly important. The quantum-chemical results allow one to reliably assign the spectra and to gain information both on the structure and on the importance of intra- and intermolecular interactions. In addition, we study the accuracy of a variety of density functionals for describing the present host-guest systems, where we observe a considerable underestimation of ring-current effects on (1)H NMR chemical shifts at the density functional theory (DFT) level using smaller basis sets such as 6-31G**, so that larger bases like TZP are required. This stands in contrast to the behavior of the Hartree-Fock scheme, where small basis sets, such as 6-31G**, provide reliable (1)H NMR shieldings for molecular tweezers systems. |
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