Among various types of alternative energy devices, solid oxide fuel cells (SOFCs) operating
at low temperatures (300‐600° C) show the advantages for both stationary and mobile …

This critical review presents an overview of the various classes of oxide materials exhibiting
fast oxide-ion or proton conductivity for use as solid electrolytes in clean energy applications …

High-temperature proton-conducting materials constitute a unique class of oxide materials,
which are able to exhibit protonic conductivity under hydrogen-containing atmospheres …

Resolving the energy crisis and advancing the commercialization of electrochemical
conversion devices is urgent tasks nowadays. Developing cost-effective electrocatalysts for …

Proton conductors are distinct from electronic conductors by virtue of their low conductivity
values and the necessity for the presence of a third material as a carrier to transport protons …

In this paper we report the successful incorporation of phosphate and sulfate groups into the
ionic conductor, Ba2In2O5, with the samples analysed through a combination of X-ray …

In this paper we report the successful incorporation of sulfate and phosphate into SrCoO3
leading to a change from a 2H-to a 3C-perovskite polymorph. Structural characterization by …

Simple perovskite-structured proton conductors encounter significant challenges to
simultaneously achieving excellent chemical stability and proton conductivity that are …

In this paper a phosphorus doped perovskite, SrCo0. 85Fe0. 1P0. 05O3− δ (SCFP), is
evaluated as a cathode material for intermediate-temperature solid oxide fuel cells. It is …

In this paper we report the successful incorporation of borate and phosphate into CaMnO3
and borate into La1− ySryMnO3− δ. For CaMnO3, an increase in the electronic conductivity …