AI Article Synopsis
- A specialized annealing process for Nafion was created to prevent mechanical property deterioration caused by reduced ionic conductivity, essential for fuel cell performance.
- The Nafion membranes undergo a 7-day annealing process at 140 °C with dimethylsulfoxide (DMSO), leading to improved mechanical stability due to the formation of a crystalline phase that serves as a physical cross-linker.
- After this, hydrothermal annealing in water optimizes water uptake, and techniques like INCA and dynamic mechanical analysis (DMA) are employed to analyze the behavior of these enhanced polymers for use in intermediate temperature fuel cells.
Article Abstract
A tailor-made annealing procedure was developed for Nafion in order to avoid a critical degradation of the mechanical properties associated with a decrease of the ionic conductivity. The formation of layered morphologies, prevalently oriented in the direction parallel to the membrane surface, is responsible of the decay in fuel cell operation conditions. Nafion membranes are annealed at 140 °C over 7 days in the presence of dimethylsulfoxide (DMSO) as a proton-acceptor solvent. The important increase of mechanical stability is related to the formation of a crystalline phase, which acts as a physical cross-linker. The procedure is followed by hydrothermal annealing in liquid water in order to obtain an optimal water uptake at equilibrium (tailor made). To better understand the behavior of these polymers, we use the INCA method (Ionomer Analysis) and compare with dynamic mechanical analysis (DMA). The stabilized materials are proposed for use in intermediate temperature fuel cells, where the mechanical stabilization by the annealing procedure plays a fundamental role.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9083284 | PMC |
| http://dx.doi.org/10.1039/c8ra04808h | DOI Listing |
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