Journal article
Study of Co-electrospun Nafion and Polyaniline Nanofibers as Potential Catalyst Support for Fuel Cell Electrodes
Electrochimica acta, v 198, pp 156-164
20 Apr 2016
Featured in Collection : UN Sustainable Development Goals @ Drexel
Abstract
Nanostructured composites of electron and proton conducting materials were fabricated via simultaneous electrospinning of Nafion and PANI solutions on a rotating collector for application as fuel cell catalyst supports. Poly (ethylene oxide) (PEO) was used as a carrier polymer to enhance chain entanglements and therefore the electrospinnability of both solutions. Dual nanofiber mat with a Nafion/PANI composition of 50/50 wt% was prepared. Post electrospinning annealing at 150 degrees C for 5 mins and densification at 500 psi was performed to enhance Nafion domain crystallinity and fiber fraction (i.e. reduce void volume), respectively. PEO was selectively removed by treatment of the electrospun mats in boiling acid solution for one hour. Conductivity of the nanofiber mats was investigated using electrochemical impedance spectroscopy and equivalent circuit was used to decouple impedance from electron and proton transfer in the composite fiber mat. The resultant dual nanofiber mat exhibited an inplane conductivity (sigma(-)) of 0.014 and 0.023 S/cm for electrons and protons, respectively. Through plane conductivity (sigma(perpendicular to)) was also studied and the dual nanofiber mat showed anisotropy for both proton and electron conductivities with (sigma(-))/(sigma(perpendicular to)) = 1.27 and 1.4, respectively. Such dual nanofiber mats with percolating phases of both electron-and proton-conductors and three dimensional through-connected inter-fiber pore structure (for gas transport) can potentially serve as excellent catalyst supports for fuel cells. (C) 2016 Published by Elsevier Ltd.
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Details
- Title
- Study of Co-electrospun Nafion and Polyaniline Nanofibers as Potential Catalyst Support for Fuel Cell Electrodes
- Creators
- Silas K. Simotwo - Drexel UniversityVibha Kalra - Drexel University
- Publication Details
- Electrochimica acta, v 198, pp 156-164
- Publisher
- Elsevier
- Number of pages
- 9
- Grant note
- CBET 1150528; CMMI 1537827 / National Science Foundation; National Science Foundation (NSF)
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Chemical and Biological Engineering
- Web of Science ID
- WOS:000373456700017
- Scopus ID
- 2-s2.0-84961661638
- Other Identifier
- 991019167590804721
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- Web of Science research areas
- Electrochemistry