A number of lanthanum strontium manganate/yttria-stabilized zirconia (LSM/Y
SZ) composite electrodes are produced with varying composition and processi
ng parameters. The composites are investigated using impedance spectroscopy
. General trends related to the oxygen reduction process are extracted from
the impedance data. Literature concerning kinetic studies of LSM/YSZ elect
rodes and related systems is reviewed and compared to new experimental data
. From this it is found that at least five processes affect the impedance.
Going from high to low frequency, these processes are (i), (ii) two geometr
y-related contributions interpreted as transport across LSM/YSZ interfaces
and through the YSZ of the composite, (iii) a process reflecting competitiv
e reaction steps such as bond breaking and surface diffusion, (iv) gas diff
usion in a stagnant gas layer above the electrode structure, and (v) an act
ivation process (inductive) presumably located at the triple phase boundary
of electrode, electrolyte, and gas phase. (C) 2001 The Electrochemical Soc
iety.