Effects of the bead-bead potential on the restricted rotational diffusion of nonrigid macromolecules

The role of the bead-solvent interaction has been studied for its influence on the dynamics of an N-bead macromolecule which is immersed into a solution. Using a Fokker-Planck equation for the phase-space distribution function of the macromolecule, we show that all the effects of the solution can be treated entirely in terms of the friction tensors which are assigned to each pair of interacting beads in the chain. For the high-density as well as for the critical solvent, the properties of these tensors are discussed in detail and are calculated by using several (realistic) choices of the bead-solvent potential. From the friction tensors, moreover, an expression for the center-of-mass friction coefficient of a (N-bead) chain macromolecule is derived. Numerical data for this coefficient for "truncated" Lennard-Jones bead-solvent potential are compared with results from molecular dynamic simulations and from the phenomenological theoretical data as found in the literature.

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Effects of the bead-bead potential on the restricted rotational diffusion of nonrigid macromolecules

Cited by 5 publications

References 60 publications

Restricted Rotational Diffusion of Non-rigid Dumbbell-Type Macromolecules on Surfaces: Effects of the Bead-Bead and Bead-Surface Interaction

Restricted Rotational Diffusion of Non-rigid Dumbbell-Type Macromolecules on Surfaces: Effects of the Bead-Bead and Bead-Surface Interaction

A semi-phenomenological approach to the transport and diffusion of small spherical macromolecules in solution

Friction ofN-bead macromolecules in solution: Effects of the bead-solvent interaction

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