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Article

Solvent Effects on Nuclear Magnetic Resonance 2J(C,Hf) and 1J(C,Hf) Spin–Spin Coupling Constants in Acetaldehyde

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Departamento de Química y Física, FCEF-QyN Universidad Nacional de Río Cuarto, Ruta Nac. 36, Km 601, (5800) Río Cuarto, Argentina
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Departamento de Física, FCEyN, Universidad de Buenos Aires and CONICET, Ciudad Universitaria, Pab. 1, (1428), Buenos Aires, Argentina
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Departamento de Química Física Aplicada, Facultad de Ciencias C2. Universidad Autónoma de Madrid, E-28049, Madrid, Spain
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Departamento de Química Física, Facultad de Ciencias, Universidad de Alicante, E-03080 Alicante, Spain
*
Author to whom correspondence should be addressed.
Int. J. Mol. Sci. 2003, 4(3), 93-106; https://0-doi-org.brum.beds.ac.uk/10.3390/i4030093
Received: 1 July 2002 / Accepted: 22 August 2002 / Published: 25 February 2003
The known solvent dependence of 1J(Cc,Hf) and 2J(C1,Hf) couplings in acetaldehyde is studied from a theoretical viewpoint based on the density functional theory approach where the dielectric solvent effect is taken into account with the polarizable continuum model. The four terms of scalar couplings, Fermi contact, paramagnetic spin orbital, diamagnetic spin orbital and spin dipolar, are calculated but the solvent effect analysis is restricted to the first term since for both couplings it is by far the dominant contribution. Experimental trends of Δ1J(Cc,Hf) and Δ2J(C1,Hf) Vs ε (the solvent dielectric constant) are correctly reproduced although they are somewhat underestimated. Specific interactions between solute and solvent molecules are studied for dimethylsulfoxide, DMSO, solutions considering two different one-to-one molecular complexes between acetaldehyde and DMSO. They are determined by interactions of type C=O---H---C and S=O---H---C, and the effects of such interactions on 1J(Cc,Hf) and 2J(C1,Hf) couplings are analyzed. Even though only in a semiquantitative way, it is shown that the effect of such interactions on the solvent effects, of Δ1J(Cc,Hf) and Δ2J(C1,Hf), tend to improve the agreement between calculated and experimental values. These results seem to indicate that a continuum dielectric model has not enough flexibility for describing quantitatively solvent effects on spin-spin couplings. Apparently, even for relatively weak hydrogen bonding, the contribution from “direct” interactions is of the same order of magnitude as the “dielectric” effect. View Full-Text
Keywords: Spin-spin couplings; density functional theory; solvent effect; natural J coupling Spin-spin couplings; density functional theory; solvent effect; natural J coupling
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MDPI and ACS Style

Zaccari, D.; Barone, V.; Peralta, J.E.; Contreras, R.H.; Taurian, O.E.; Díez, E.; Esteban, A. Solvent Effects on Nuclear Magnetic Resonance 2J(C,Hf) and 1J(C,Hf) Spin–Spin Coupling Constants in Acetaldehyde. Int. J. Mol. Sci. 2003, 4, 93-106. https://0-doi-org.brum.beds.ac.uk/10.3390/i4030093

AMA Style

Zaccari D, Barone V, Peralta JE, Contreras RH, Taurian OE, Díez E, Esteban A. Solvent Effects on Nuclear Magnetic Resonance 2J(C,Hf) and 1J(C,Hf) Spin–Spin Coupling Constants in Acetaldehyde. International Journal of Molecular Sciences. 2003; 4(3):93-106. https://0-doi-org.brum.beds.ac.uk/10.3390/i4030093

Chicago/Turabian Style

Zaccari, Daniel, Verónica Barone, Juan E. Peralta, Rubén H. Contreras, Oscar E. Taurian, Ernesto Díez, and Angel Esteban. 2003. "Solvent Effects on Nuclear Magnetic Resonance 2J(C,Hf) and 1J(C,Hf) Spin–Spin Coupling Constants in Acetaldehyde" International Journal of Molecular Sciences 4, no. 3: 93-106. https://0-doi-org.brum.beds.ac.uk/10.3390/i4030093

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