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 study aims to review novel materials for solid oxide fuel cell (SOFC) applications
covered in literature. Thence, it was found that current SOFC operating conditions lead to …

The basic strategies of improving the stability of proton-conducting electrolytes based on
barium cerate (BaCeO 3) by means of:(i) co-do**,(ii) do** by nonmetallic elements and …

The characteristic of a number of oxide materials, which include BaCeO 3-systems, is their
ability to show the proton conductivity along with oxygen-ion conductivity. Such atypical …

Solid oxide fuel cells (SOFCs) have been considered as promising candidates to tackle the
need for sustainable and efficient energy conversion devices. However, the current …

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

Ammonia is one of the most produced chemicals worldwide, and it is not only a major end
product but also an important energy storage intermediate. The solid-state electrochemical …

Proton conductors (PCs) are multifunctional perovskite materials with structural, electrical,
and chemical compatibilities that serve as principal components in proton conducting solid …

In the past few years a novel concept of Solid Oxide Fuel Cells (SOFC) has been developed:
the symmetrical Solid Oxide Fuel Cells (SSOFC). In this configuration, the same electrode …

High-temperature solid-state electrolyte is a key component of several important
electrochemical devices, such as oxygen sensors for automobile exhaust control, solid oxide …