Skip to main content
eScholarship
Open Access Publications from the University of California

Improving the Gas Barrier Properties of Nafion via Thermal Annealing: Evidence for Diffusion through Hydrophilic Channels and Matrix

Abstract

Oxygen diffusion through commercial Nafion films is investigated using a transient electrochemical reduction method. Direct experimental evidence is found for two Fickian diffusion coefficients corresponding to oxygen permeation through the hydrophilic channels and fluorocarbon matrix. The diffusion coefficient and solubility of oxygen in each phase, which controls the overall permeability, can be tuned via thermal annealing where films annealed at 160 °C have a substantially reduced oxygen permeability relative to the as-received material. Films annealed at 200 °C show intermediate oxygen permeation to the as-received and 160 °C annealed samples. Differential scanning calorimetry and wide-angle X-ray scattering are employed to demonstrate that increasing crystallinity reduces the oxygen solubility and diffusion coefficient through the Nafion matrix. The two oxygen diffusion coefficients are discussed in the context of literature values which span more than an order of magnitude. It is found that the time scale of the experiments plays a substantial role in the measured diffusion coefficient with short time scale (<30 s) experiments sensing primarily diffusion through the hydrophilic channels. Longer time scale experiments (>300 s) are able to sense both modes of oxygen permeation.

Main Content
For improved accessibility of PDF content, download the file to your device.
Current View