2014
DOI: 10.1002/app.40314
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Nanostructured membrane electrode assemblies from layer‐by‐layer composite/catalyst containing membranes and their fuel cell performances

Abstract: In this study, two approaches are compared to develop nanostructured membrane electrode assemblies (MEA) using layer‐by‐layer (lbl) technique. The first is based on the direct deposition of polyallylamine hydrochloride (PAH) and sulfonated polyaniline (sPAni) on Nafion support to prepare lbl composite membrane. In the second approach, sPAni is coated on the support in the presence of platinum (Pt) salt, Nafion solution and Vulcan for obtaining catalyst containing membranes (CCMs). SEM and UV–vis analysis show … Show more

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Cited by 2 publications
(1 citation statement)
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“…SPAns have been applied in diverse applications such as solar cells , fuel cells , batteries , electrochromic devices , electrocatalysis , corrosion protection , supercapacitors and sensors . The deposition of copper species on SPAn films has been explored and used for the fabrication of chemical sensors; an electrochemical sensor for the determination of hydrogen peroxide was constructed by electrodeposition of Cu nanoparticles on the precursor film poly‐p‐aminobenzene sulfonic acid electrodeposited on glassy carbon (GC) electrode .…”
Section: Introductionmentioning
confidence: 99%
“…SPAns have been applied in diverse applications such as solar cells , fuel cells , batteries , electrochromic devices , electrocatalysis , corrosion protection , supercapacitors and sensors . The deposition of copper species on SPAn films has been explored and used for the fabrication of chemical sensors; an electrochemical sensor for the determination of hydrogen peroxide was constructed by electrodeposition of Cu nanoparticles on the precursor film poly‐p‐aminobenzene sulfonic acid electrodeposited on glassy carbon (GC) electrode .…”
Section: Introductionmentioning
confidence: 99%