Stokes–Einstein–Debye Failure in Molecular Orientational Diffusion: Exception or Rule?

David A. Turton*,

University of Glasgow, School of Chemistry, WestCHEM, Glasgow G12 8QQ, U.K.

Klaas Wynne

University of Glasgow, School of Chemistry, WestCHEM, Glasgow G12 8QQ, U.K.

J. Phys. Chem. B, 2014, 118 (17), pp 4600–4604

DOI: 10.1021/jp5012457

Publication Date (Web): April 4, 2014

*E-mail: david.turton@glasgow.ac.uk. Phone: (+44)141 3307680.

Cite this:J. Phys. Chem. B 118, 17, 4600-4604

Abstract

The Stokes–Einstein–Debye (SED) expression is used routinely to relate orientational molecular diffusivity quantitatively to viscosity. However, it is well-known that Einstein’s equations are derived from hydrodynamic theory for the diffusion of a Brownian particle in a homogeneous fluid and examples of SED breakdown and failure for molecular diffusion are not unusual. Here, using optical Kerr-effect spectroscopy to measure orientational diffusion for solutions of guanidine hydrochloride in water and mixtures of carbon disulfide with hexadecane, we show that these two contrasting systems each show pronounced exception to the SED relation and ask if it is reasonable to expect molecular diffusion to be a simple function of viscosity.

(S1) Experimental details: optical Kerr-effect measurements and sample preparations. (S2) Optical Kerr-effect principles, time-domain data, details of fitting and analysis, and viscosity measurements. (S3) Calculation of the effect of clustering on OKE spectra. This material is available free of charge via the Internet at http://pubs.acs.org.

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