Increasing Complexity Approach to the Fundamental Surface and Interface Chemistry on SOFC Anode Materials

Abstract: Conspectus In this Account, we demonstrate an increasing complexity approach to gain insight into the principal aspects of the surface and interface chemistry and catalysis of solid oxide fuel cell (SOFC) anode and electrolyte materials based on selected oxide, intermetallic, and metal–oxide systems at different levels of material complexity, as well as into the fundamental microkinetic reaction steps and intermediates at catalytically active surface and interface sites. To dismantle the complexi… Show more

“…Presently, Ni-based cermet is the prevailing choice for anode materials in SOFCs [ 13 ]. However, for the DA-SOFC, under high NH 3 concentration, Ni is susceptible to significant coarsening.…”

A High-Performance and Durable Direct-Ammonia Symmetrical Solid Oxide Fuel Cell with Nano La0.6Sr0.4Fe0.7Ni0.2Mo0.1O3−δ-Decorated Doped Ceria Electrode

“…Presently, Ni-based cermet is the prevailing choice for anode materials in SOFCs [ 13 ]. However, for the DA-SOFC, under high NH 3 concentration, Ni is susceptible to significant coarsening.…”

A High-Performance and Durable Direct-Ammonia Symmetrical Solid Oxide Fuel Cell with Nano La0.6Sr0.4Fe0.7Ni0.2Mo0.1O3−δ-Decorated Doped Ceria Electrode

“…Solid oxide fuel cells (SOFCs) are considered as one of the most efficient electrochemical energy-conversion devices due to their high energy efficiency, low pollutant emission and high flexibility to utilize various fuels such as hydrogen, syngas and hydrocarbons [1][2][3]. Readily available hydrocarbon fuels with a low cost and good security are considered as promising alternatives to conventional H 2 fuel for fuel cells [4].…”

A rational design of highly active and coke-resistant anode for methanol-fueled solid oxide fuel cells with Sn doped Ni-Ce0.8Sm0.2O2−δ

Specific applications of the lanthanides