Evidence of extremely short hydrogen bond in the homoconjugated ferrocene-1,1′-diyl-bisphosphinic acid anion: sign change of the H/D isotope effect on the 31P NMR chemical shift

The structure of the two intramolecular hydrogen-bonded motifs within ferrocene-1,1′-diyl-bisphosphinic acid, a cyclic dimer and a homoconjugated anion, has been experimentally revealed by NMR spectroscopy for a solution in a low-freezing polar aprotic CDF3/CDF2Cl medium at 100 K. Structure elucidat...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2023-11, Vol.25 (43), p.29486-29495
Hauptverfasser:	Chakalov, E R, Shekurov, R P, Miluykov, V A, Tolstoy, P M
Format:	Artikel
Sprache:	eng
Schlagworte:	Anharmonicity Anions Chemical equilibrium Deuterons Dimers Freezing Hydrogen bonding Hydrogen bonds Isotope effect NMR spectroscopy Schrodinger equation
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creator	Chakalov, E R Shekurov, R P Miluykov, V A Tolstoy, P M
description	The structure of the two intramolecular hydrogen-bonded motifs within ferrocene-1,1′-diyl-bisphosphinic acid, a cyclic dimer and a homoconjugated anion, has been experimentally revealed by NMR spectroscopy for a solution in a low-freezing polar aprotic CDF3/CDF2Cl medium at 100 K. Structure elucidation was achieved with the help of the H/D isotope effects on the 1H, 2H and, for the first time, 31P NMR chemical shifts. The questions of bridging hydron localization and origins of opposite signs of H/D isotope effects on the 31P NMR chemical shifts in the cyclic dimer and homoconjugated anion have also been addressed by DFT calculations, including numerical solution of the Schrödinger equation for proton and deuteron vibrations in the anharmonic double well potentials.
doi_str_mv	10.1039/d3cp03714b
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subjects	Anharmonicity Anions Chemical equilibrium Deuterons Dimers Freezing Hydrogen bonding Hydrogen bonds Isotope effect NMR spectroscopy Schrodinger equation
title	Evidence of extremely short hydrogen bond in the homoconjugated ferrocene-1,1′-diyl-bisphosphinic acid anion: sign change of the H/D isotope effect on the 31P NMR chemical shift
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