화학공학소재연구정보센터
Solid State Ionics, Vol.183, No.1, 26-31, 2011
Proton conduction in acceptor doped SnP2O7
Undoped and acceptor doped tin pyrophosphate with composition D0.1Sn0.9P2O7 (- delta) (D = In, Ga, Zn, Sc, and Mg) were synthesized by the conventional solid state reaction method and sintered to obtain well densified pellets (> 90% relative density). The conductivity of all the synthesized materials was measured in unhumidified atmosphere in the temperature range 300 degrees C-600 degrees C using electrochemical impedance spectroscopy (EIS). The conductivity of acceptor doped SnP2O7 was found to be significantly higher than undoped SnP2O7 for all the dopants. Proton transference number measurements indicated that the charge transport in acceptor doped SnP2O7 was mostly protonic. Within the dopants analyzed, Zn0.1Sn0.9P2O7 (- delta) showed the highest conductivity of 2.84 x 10(-6) S/cm at 600 degrees C. This value is several orders of magnitude lower than previously reported for doped tin pyrophosphate compounds but it is consistent with a recent publication. The reason for the discrepancy was investigated and a possible explanation has been proposed based on results obtained from P-31 MAS-NMR spectroscopy as follows. It was observed that the as-calcined powder of doped SnP2O7 contained a significant fraction of leftover phosphoric acid from synthesis procedure. This phosphoric acid is likely to be responsible for the high conductivity values for acceptor doped SnP2O7 previously reported by other research groups. Published by Elsevier B.V.