Dynamic Viscoelasticity In Polyelectrolyte Multilayers Nanodamping Chem Mat

A 370 2004 pp.

Dynamic viscoelasticity in polyelectrolyte multilayers nanodamping chem mat. Schlenoffdynamic viscoelasticity in polyelectrolyte multilayers. Dynamic viscoelasticity in polyelectrolyte multilayers. Two flexible oppositely charged polymers can form liquid like complex coacervate phases with rich but poorly understood viscoelastic properties. Dynamic viscoelasticity in polyelectrolyte multilayers.

They serve as an experimental model system for many biological and man made materials made from oppositely charged macromolecules. We report on the time dependent viscoelastic response of nanoblended films of a polyelectrolyte complex prepared by the multilayering method. 2 4 6 the chemical composition and concentration of. Thus the bulk modulus of these ultrathin films may be regulated without changing temperature.

The ion pairing interactions within polyelectrolyte multilayers pemus are reversibly broken by adding salt to the electrolyte in which the pemu is immersed. Such coatings or films are denoted henceforth as polyelectrolyte multilayers pems. 1 3 pems self assemble due to electrostatic interactions between sequentially deposited alternately charged pes. This unprecedented ability to fine tune a multilayer to be either cell adhesive or bioinert along with the unique feature of controllable porosity allows polyelectrolyte multilayers to be envisioned for membranes controlled release and biocompatible implant coating applications.

Mat sci eng c bio s. We use rheology to systematically study the viscoelastic properties as a function of salt concentration chain length. Nanodamping article in chemistry of materials 18 24 november 2006 with 13 reads how we measure reads. Mater 18 2006 pp.

Dynamic storage and loss moduli of dilute solutions of linear poly 2 vinylpyridine with molecular weights ranging from 3 0 104 to 1 0 106 have been measured under conditions where the polymer can. Polyelectrolyte multilayers pem obtained by layer by layer assembly can be doped with ionic liquid il via the swelling of the films with il solutions. In order to examine the mechanical properties of il containing pem we implement a kelvin voigt model to obtain thickness viscosity and elastic modulus from the frequency and dissipation shifts determined by a dissipative quartz crystal. Experimental and mathematical modeling investigation on the dynamic viscoelasticity behavior of free liquid films prepared by alpha olefin sulfonate.