Dynamics of semi-flexible polymer solutions in the highly entangled regime

Abstract

We present experimental evidence that the effective medium approximation (EMA), developed by D.C. Morse [Phys. Rev. E 63, 031502, (2001)], provides the correct scaling law of the macroscopic plateau modulus G04/3L-1/3p (where is the contour length per unit volume and Lp is the persistence length) of semi-flexible polymer solutions, in the highly entangled concentration regime. Competing theories, including a self-consistent binary collision approximation (BCA), have instead predicted G07/5L-1/5p. We have tested both the EMA and BCA scaling predictions using actin filament (F-actin) solutions which permit experimental control of Lp independently of other parameters. A combination of passive video particle tracking microrheology and dynamic light scattering yields independent measurements of the elastic modulus G and Lp respectively. Thus we can distinguish between the two proposed laws, in contrast to previous experimental studies, which focus on the (less discriminating) concentration functionality of G.