Формирование проводимости в фторсодержащих полимерах методом радиацианно-прививочной полимеризации

Abstract

Nanocomposite proton-exchange membranes (NCPEM) for low-temperature fuel cells, studied andproduced by the authors, are being discussed. The membranes are represented by nanoporous matrices, based onsilicon and aluminum, with polymeric electrolyte encapsulated into the pores. As to characteristics, that NCPEMdemonstrate, when being operated at room temperature, they dominate over those, pertinent to the most widelyused Nafion and additionally feature proton conductivity even in vacuum. Above all, such materials aresignificantly cheaper as compared to Nafion. The paper also presents some structural and technologicalpeculiarities of NCPEM formation, as well as their physical characteristics.