I. Quasi-Elastic Light Scattering from Liquids and Liquid Mixtures: a Study of Mass and Thermal Diffusivities. II. Observation of Translational and Intramolecular Diffusion of Circular Duplex DNA by Quasi-Elastic Light Scattering

Author: Brown, Ronald Jerome

Year: 1975

Degree: Dissertation (Ph.D.)

Advisor: Pings, Cornelius J.

Committee Member: Unknown, Unknown

Option: Chemical Engineering

DOI: 10.7907/VKF3-8056

Abstract

Part I

A quasi-elastic light scattering spectrometer has been con­structed and used to measure the binary mutual diffusion coefficient DAB as a function of concentration in eight binary mixtures and the thermal diffusivity x in nine pure liquids and two binary mixtures. The resulting values are in close agreement with the available bulk values and are accurate to within 3% for mass diffusivities and 5% for thermal diffusivities. Because neither type of measurement is dependent on the imposition of a macroscopic gradient, many of the problems associated with conventional bulk measurements are eliminated.

Determinations require less than 2 hours for thermal diffus­ivities and 30 minutes for mass diffusivities, in contrast to the more time consuming classical approaches.

On the basis of these experimental results, light scattering spectroscopy is established as an effective tool in the determination of liquid mass and thermal diffusivities. The technique should have wide industrial application.

Part II

Quasi-elastic light scattering experiments on solutions of ɸX174 RF DNA and PM2 I DNA reveal spectral contributions from transla­tional and intramolecular motion. A tentative interpretation of the data in terms of Rouse-Zimm theory indicates lowest order relaxation times qualitatively consistent with theoretical predictions. Further experiments on linear and form II DNA should provide information about the changes in molecular flexibility and translational diffusivity associated with an alteration in conformation.

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