Mechanical and Transport Properties of Poly (Ethylene Oxide) - Poly (Acrylic Acid) Double Network Hydrogel: Molecular Dynamic Simulation Approach

S. S. Jang, W. A. Goddard III, and Y. Kalani, J Phys Chem B, 111, 1729 (2007).

We used atomistic MD simulations to investigate the mechanical and transport properties of the PEO-PAA double network (DN) hydrogel with 76 wt % water content. By analyzing the pair-correlation functions for polymer-water pairs and for ion-water pairs and the solvent accessible surface area, we found that the solvation of polymer and ion in the DN hydrogel is enhanced in comparison with both PEO and PAA single network (SN) hydrogels. The effective mesh size of this DN hydrogel is smaller than that of the SN hydrogels with the same water content and the same molecular weight between the crosslinking points (). Applying uniaxial extensions, we obtained the stress-strain curves for the hydrogels. This shows that the DN hydrogel has a sudden increase of stress above ~100 % strain, much higher than the sum of the stresses of the two SN hydrogels at the same strain. This arises because PEO has smaller than PAA, so that the PEO in the DN reaches fully stretched out at 100 % strain that corresponds to 260 % strain in PEO SN (beyond this point, the bond stretching and the angle bending increase dramatically). We also calculated the diffusion coefficients of solutes such as D-glucose and ascorbic acid in the hydrogels, where we find that the diffusion coefficients of those solutes in the DN hydrogel are 60 % of that in PEO SN and 40 % of that in PAA SN due to its smaller effective mesh size.

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