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 …

The aims of this review article is to understand the mechanism of proton-conducting solid
oxide fuel cells (SOFCs) and compare it with conventional SOFC, to understand how …

The use of an ammonia-fed solid oxide fuel cell (SOFC) is the most efficient method of
generating power. In terms of CO 2 emission, ammonia is a good indirect hydrogen storage …

The increasing world population and the need to improve quality of life for a large
percentage of human beings are the driving forces for the search for sustainable energy …

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 …

Ceramic proton conductors can reduce the operating temperature of solid oxide fuel cells
(SOFCs) to the intermediate temperature range, 400-600° C, due to their higher ionic …

Highly stable proton conductive oxide materials with improved electrochemical and
thermochemical properties are in great demand in numerous fields such as portable …

Rare-earth metal doped barium zirconate (RE+-BaZrO 3) materials are ionic and electronic
conductors currently showing double functions in the protonic ceramic fuel cells (PCFCs) …

The specific grain interior and grain boundary conductivities, obtained from impedance
spectroscopy and the brick layer model, are reported for BaZr0. 9Y0. 1O3− δ as a function of …

Recent literature indicates that cation non-stoichiometry in proton-conducting perovskite
oxides (ABO3) can strongly influence their transport properties. Here we have investigated A …