Chemical diffusion of water in the high-temperature proton conductor Ba3Ca1.18Nb1.82O9-δ

The hydrogen uptake of Ba,(Ca, ,,x Nb, xz)O,\_s (BCN18) was studied in situ by thermogravimetry at different temperatures and water vapour pressures. The results can be described in terms of an ideal solution process. In contrast to earlier investigations on the Y b doped cerate system, the analysis

In order to study the local proton motion in complex perovskite-type protonic conductors anelastic and dielectric relaxation measurements have been carried out on the compound Ba (Ca Nb )O . Both techniques show spectra 3 1.18 1.82 92d depending on the proton concentration. From the dielectric measu

Ba Ca Nb O belongs to the class of complex perovskites recently introduced by Nowick et al. which are suitable 3 1.18 1.82 92d as high temperature proton conductors (HTPCs). Here, its synthesis is described using a procedure which starts with the preparation of a solution containing Ba and Ca as ac

The compound Ba,Ca,,,,Nb, ,,O,\_, belongs to the class of high-temperature proton conductors (HTPCs) which absorb water vapor and become good proton conductors. Oxygen from the water molecule fills vacancies present in the dry state of the above HTPC and the two protons are incorporated in the elect