Materials (Aug 2012)
Heterogeneous Coordination Environments in Lithium-Neutralized Ionomers Identified Using <sup>1</sup>H and <sup>7</sup>Li MAS NMR
Abstract
The carboxylic acid proton and the lithium coordination environments for precise and random Li-neutralized polyethylene acrylic acid P(E-AA) ionomers were explored using high speed solid-state <sup>1</sup>H and <sup>7</sup>Li MAS NMR. While the <sup>7</sup>Li NMR revealed only a single Li coordination environment, the chemical shift temperature variation was dependent on the precise or random nature of the P(E-AA) ionomer. The <sup>1</sup>H MAS NMR revealed two different carboxylic acid proton environments in these materials. By utilizing <sup>1</sup>H-<sup>7</sup>Li rotational echo double resonance (REDOR) MAS NMR experiments, it was demonstrated that the proton environments correspond to different average <sup>1</sup>H-<sup>7</sup>Li distances, with the majority of the protonated carboxylic acids having a close through space contact with the Li. Molecular dynamics simulations suggest that the shortest <sup>1</sup>H-<sup>7</sup>Li distance corresponds to un-neutralized carboxylic acids directly involved in the coordination environment of Li clusters. These solid-state NMR results show that heterogeneous structural motifs need to be included when developing descriptions of these ionomer materials.
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