In this study, a combinatorial approach was used to develop cathode materials with improved performance at temperatures in the range 500-700 degrees C. A thin film composite cathode library was obtained by co-sputtering of LSC-113 and LSC-214 onto suitably positioned substrates each with controlled compositions. The cathode library was screened with an electrochemical impedance spectroscopy using symmetric cells. The study showed that the compositions with volume fractions in the range 0.40 < LSC-214 < 0.60 is particularly significant in yielding cathodes of improved performance. Refocusing the combinatorial screening to this range yielded LSC-113:LSC-214 = 0.45:0.55 as the most favorable compositions. Taking ASR = 0.15 Omega.cm(-2) as a useful benchmark, the study showed that cathodes in this range may be used at temperatures as low as 575 degrees C. It was further shown that composite cathodes have amorphous structures in co-sputtered conditions, and could remain so when used at reduced temperatures. At temperatures close to 700 degrees C the amorphous cathode turns into nanocrystalline two-phase structure with grains not more than 10 nm in size.