论文信息 - Brownian motion of rod-shaped colloidal particles surrounded by electrical double layers

Brownian motion of rod-shaped colloidal particles surrounded by electrical double layers

Using photon correlation spectroscopy, translational diffusion coefficients of electrostatically stabilized rodshaped colloidal particles (tobacco mosaic virus, TMV) have been determined. The diffusion constant is that of a neutral rod at high and low electrolyte concentrations, but is reduced by a few percent when the electrical double layer thickness is comparable to the radius of an equivalent sphere. The reduction in diffusion constant depends both on the charge on the rod and the sizes of the ions in the double layer. The experimental findings are in qualitative agreement with a theory of Vizcarra-Rendon et al., indicating that at the salt concentrations used, TMV behaves like a model colloidal particle. The effective charge on the individual TMV particles is obtained as a fitted parameter, and an estimate of the zeta potential of the TMV particles is also made.

T. G. M. Ven | G. Schumacher

[1] R. Klein,et al. Electrolyte friction on charged spherical macroparticles: Beyond the Debye–Hückel limit , 1987 .

[2] T. G. M. Ven,et al. Brownian motion of charged colloidal particles surrounded by electric double layers , 1987 .

[3] H. Ohshima,et al. Sedimentation velocity and potential in a dilute suspension of charged spherical colloidal particles , 1984 .

[4] H. Ohshima,et al. Approximate analytic expressions for the electrophoretic mobility of spherical colloidal particles and the conductivity of their dilute suspensions , 1983 .

[5] J. C. Thomas,et al. Rotational decay constant of tobacco mosaic virus by depolarized photon-correlation spectroscopy. , 1978, Biopolymers.

[6] A. Knox,et al. Translational and rotational diffusion of tobacco mosaic virus from polarized and depolarized light scattering , 1973, Biopolymers.

[7] J. Michael Schurr,et al. Rotational relaxation of macromolecules determined by dynamic light scattering. I. Tobacco mosaic virus , 1973 .