Quantitative relationships between composition, particle size, triple phase boundary length and surface area in nickel-cermet anodes for Solid Oxide Fuel Cells

Holzer, L.Muench, B.Iwanschitz, B.Cantoni, M.Hocker, Th.Graule, Th.2011-12-162011-12-162011-12-16201110.1016/j.jpowsour.2010.08.006https://infoscience.epfl.ch/handle/20.500.14299/73809WOS:000292661800004The present study is focusing on the elaboration of the quantitative relationships between the primary microstructural parameters (i.e. the phase volume fractions Phi, the particle and pore sizes and the corresponding size distributions PSD) with the more complex topological features (triple phase boundary length TPBL, and specific surface area SSA) in porous Ni-cermet anodes. These relationships are crucial for the microstructure optimization and for the improvement of the corresponding electrode performance.MicrostructureSOFC electrodeTopologyElectrochemical activityPorous mediaFib-Nanotomography3-Dimensional ReconstructionParticulate SystemsPattern AnodesSofc AnodesPore-SizeMicrostructureElectrodesModelOxidationQuantitative relationships between composition, particle size, triple phase boundary length and surface area in nickel-cermet anodes for Solid Oxide Fuel Cellstext::conference output::conference proceedings::conference paper