Doped Proton-Conducting Membranes Based on Heat-Resistant Heterochain Polymers
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Акад. Е.А. Бөкетов ат. Қарағанды ун-ті КЕАҚ баспасы
Abstract
Fuel cells with solid polymer electrolytes are the most popular chemical current sources and versatile sources
of energy today. Proton-conducting membranes based on a guanidine-containing polymer of the cationic type
on a polybenzimidazole matrix were obtained in this work. The membranes were created by doping film materials
with orthophosphoric acid from a polymer-polymer mixture of N-phenyl-substituted polyhexamethylene
guanidine (10 %) and polybenzimidazole. In this case, phosphoric acid remains in the membrane due to
hydrogen bonds with the functional groups of the polymer and electrostatic interactions resulting from the
doping of polyguanidine, which transforms into a polycationic form. As the content of polyguanidine increases
in the polymer-polymeric mixture, the proton conductivity of the membrane increases. It was discovered
that these membranes possess high thermal stability, with only a 20% mass loss occurring at 350 °C. Additionally,
they exhibit high proton conductivity of 0.3·10-1 mS/cm at temperatures of 130°C and higher, as well
as satisfactory mechanical properties, with a tensile strength (σр) of 21-27 MPa and elongation at break (εр)
of 7–11 %. The value of activation energy (Еа) is also low, at 0.145 eV, which suggests that these membranes
have potential for using them in solid polymer electrolyte fuel cells.
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Grigor’eva M.N. Doped Proton-Conducting Membranes Based on Heat-Resistant Heterochain Polymers/M.N. Grigor’eva, S.A. Stelmakh//Eurasian Journal of Chemistry. -2023. №4. Р.44-51.