The present work investigates the low-cost steels AISI 441, AISI 430, and AISI 444 against
the tailor-made high Cr steel Crofer 22 APU (22.9 wt% Cr) at 800° C in simulated solid oxide …

Manganese cobalt spinel oxides are promising coating materials for corrosion protection of
metallic interconnects in solid oxide fuel cell stacks. This work investigates how Fe and Cu …

The effect of novel Co and Ce nanocoatings on oxidation behaviour and chromium
volatilization from a commercial Fe–22Cr steel (Sanergy HT) developed for solid oxide fuel …

An AISI 430 stainless steel was coated by Mn-Co and Mn-Co-Cu oxides, then tested in O 2-
5% H 2 O at 800° C. The coated samples had reduced rates of oxidation and Cr loss due to …

The major degradation issues of solid oxide fuel cells (SOFC) are associated with the oxide
scale growth and Cr evaporation of the metallic interconnect. To address these challenges …

In an attempt to reduce the oxidation and Cr evaporation rates of solid oxide fuel cells
(SOFCs), Mn 1.4 Co 1.4 Cu 0.2 O 4 spinel coating is developed on the Crofer22 APU ferritic …

The drive for fuel cell technology research and development stems from cleanliness of the
technology, high chemical to electrical conversion efficiency and versatile applications …

The chapter introduces components and working principle of solid oxide fuel cells (SOFCs).
It is followed by the explanation on the choices of materials focussing on ferritic stainless …

Novel nano-oxide dispersed ferritic stainless steel alloys have been developed as potential
interconnect materials for solid oxide fuel cells. Nanopowders of CeO 2 and LaCrO 3 were …

The effect of a dual layer coating composed of a layer of a Co 3 O 4 and a layer of a La 0.85
Sr 0.15 MnO 3/Co 3 O 4 mixture on the high temperature corrosion of the Crofer 22 APU …