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Article Dans Une Revue Bulletin of the American Physical Society Année : 2021

A Fluorine-free Precise Polymer Electrolyte for Efficient Proton Transport: Experiments and Simulations

Résumé

Designing polymers with controlled nanoscale morphologies and scalable synthesis is of great interest in the development of fluorine-free materials for proton exchange membranes in fuel cells. This study focuses on a precision polyethylene with phenylsulfonic acid branches at every 5th carbon, p5PhSA, with a high ion-exchange capacity (4.2 mmol/g). The polymers self-assemble into hydrophilic and hydrophobic co-continuous nanoscale domains. In the hydrated state, the hydrophilic domain, comprised of the polar sulfonic acid moieties and water, serves as a pathway for efficient mesoscopic proton conductivity. The morphology and proton transport of p5PhSA are evaluated under hydrated conditions using in situ X-ray scattering and electrochemical impedance spectroscopy techniques. At 40 °C and 95% relative humidity, the proton conductivity of p5PhSA is 0.28 S/cm, which is four times greater than Nafion™ 117 under the same conditions. Atomistic molecular dynamics (MD) simulations are also used to elucidate the interplay between the structure and the water dynamics. The MD simulations show strong nanophase separation between the percolated hydrophilic and hydrophobic domains over a wide range of water contents. The percolated hydrophilic nanoscale domain facilitates the rapid proton transport in p5PhSA and demonstrates the potential of precise hydrocarbon-based polymers as processible and effective proton exchange membranes.

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hal-03452443 , version 1 (07-02-2024)

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Benjamin A Paren, Bryce A Thurston, Arjun Kanthawar, William J Neary, Aaron Kendrick, et al.. A Fluorine-free Precise Polymer Electrolyte for Efficient Proton Transport: Experiments and Simulations. Bulletin of the American Physical Society, 2021, F63.00005 (15), pp.6041-6051. ⟨10.1021/acs.chemmater.1c01443⟩. ⟨hal-03452443⟩
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