This paper provides a comprehensive overview of developments and recent trends in H 2
separation technology that uses dense proton–electron conducting ceramic materials and …

In this work, an overview of the interconnections between membrane technology and
renewable energy sources (biomass, salinity gradient power, wind, solar) is given …

Solid oxide proton conductors are crucially emerging as key materials for enabling hydrogen-
based energy conversion, storage, and electrochemical technologies. Oxides crystallising in …

Mixed proton and electron conductor ceramic composites were examined as hydrogen
separation membranes at moderate temperatures (higher than 500° C). In particular, dense …

Hydrogen, one of the most promising energy carriers for the future, is currently produced
mainly by natural gas reforming or coal gasification, where mixtures containing H2, CO2 and …

Mixed protonic–electronic conducting (MPEC) ceramic membranes with high H2
permeability and stability are significant for practical H2 separation. CO2‐tolerant lanthanum …

The BaCo0. 4Fe0. 4Zr0. 1Y0. 1O3− δ (BCFZY0. 1) triple ionic-electronic conductor (TIEC)
has received thorough investigation as a potential cathode in protonic ceramic fuel cells …

A novel concept for the preparation of multiphase composite ceramics based on demixing of
a single ceramic precursor has been developed and used for the synthesis of a dual‐phase …

The manufacture of structured ceramic porous support knows an important boom since more
than a decade with the development of new shaping techniques. Among the most promising …

This book proposes a wide overview of the research and development of proton-conducting
solid oxide materials. It is the first to approach the topic on proton-conducting ceramics and …