resumo
Hexadecyltrimethylammonium chloride (HDTA) intercalated Bentonite (HDTA-B) was dispersed in sulfonated polyether ether ketone (sPEEK) to form nanocomposite membrane electrolytes for direct methanol fuel cells (DMFC). HDTA intercalation to Bentonite is confirmed through various characterization techniques. The physico-chemical properties for the formed nanocomposite membranes of sPEEK/HDTA-B with various ratio were studied by determining its ion exchange capacity (IEC), water/methanol sorption and proton conductivity in conjunction with mechanical and thermal stability. Methanol cross-over for the composite membranes is restricted in comparison to pristine sPEEK confirmed via linear sweep voltammetry (LSV) by determining methanol oxidation current. Cell polarization reveals that, the optimized sPEEK/HDTA-B (80:20 wt ratio) composite membrane exhibit higher peak power density of 153 mW/cm(2) while pristine sPEEK membrane show peak power density of 73 mW/cm(2) only. These properties confirm that sPEEK/HDTA-B composite membranes is an viable option as electrolyte in DMFC. (C) 2018 The Electrochemical Society.
palavras-chave
COMPOSITE MEMBRANES; ORGANO-MONTMORILLONITE; EXCHANGE MEMBRANES; PERFORMANCE; CONDUCTIVITY; HYDROGEN; ACID
categoria
Electrochemistry; Materials Science
autores
Sasikala, S; Rambabu, G; Shukla, A; Nagaraju, N; Bhat, SD
nossos autores
Grupos
agradecimentos
Authors thank CSIR Young Scientist Award Project (DU-MLP-0090-CSIR-YSA) programme from Council of Scientific and Industrial Research (CSIR) for the funding. Authors also thank Scientist-In-Charge, CECRI Madras Unit and Director, CSIR-CECRI for their constant support during this research.