Diluting the hydrogen bonds in viscous solutions of n-butanol with n-bromobutane: II. A comparison of rotational and translational motions

Christina Lederle, Wolf Hiller, Catalin Gainaru, Roland Böhmer

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Abstract

Mixtures of the monohydroxy alcohol n-butanol with n-bromobutane are investigated via dielectric and nuclear magnetic resonance (NMR) techniques. Static- and pulsed-field gradient proton NMR yielded self-diffusion coefficients as a function of concentration and temperature. To monitor reorientational motions, broadband dielectric and 13C-spin relaxation time measurements were carried out. The latter demonstrate that the structural relaxation stems from the motion of the alkyl chains. By combining data from translational diffusion coefficients with published shear viscosities, hydrodynamic radii were determined that compare favorably with the van der Waals radii of single molecules. The results for the neat alcohol and for the binary mixtures are discussed with respect to a recent transient chain model. The approach of Debye and structural relaxation times at high temperatures, identified as a general feature of monohydroxy alcohols, is also discussed within that framework.

Original languageEnglish
Article number064512
JournalJournal of Chemical Physics
Volume134
Issue number6
DOIs
StatePublished - Feb 14 2011
Externally publishedYes

Funding

We thank Herbert Zimmermann for supplying several isotopically labeled substances, Reiner Küchler for helping with some of the diffusion measurements, and Thomas Blochowicz for recording DSC data. Peter Lunkenheimer, Ryusuke Nozaki, and Ranko Richert generously provided relaxation time data for ethanol, pentanol, and propanol, respectively. Sebastian Schildmann is also thanked for his input. This project was financially supported by the Deutsche Forschungsgemeinschaft under Grant No. BO1301/8-1, which is highly appreciated.

FundersFunder number
Deutsche ForschungsgemeinschaftBO1301/8-1

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