• ARUNA S T

      Articles written in Journal of Chemical Sciences

    • Structural and electrical properties of M-doped TiO2 (M = Ni, Cu, Zn) relevant to their application as electrolytes for solid oxide fuel cells

      NAEEMAKHTAR MOMIN MANJANNA J ARUNA S T SENTHILKUMAR S DINESH S REDDY AMIT KUMAR

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      Low-cost semiconductors have emerged as potential electrolyte materials for intermediate temperature solid oxide fuel cells (IT-SOFC). The present work describes the synthesis and characterizationof Ti0.95M0.05O2-δ (M = Ni, Cu, Zn) followed by the determination of ionic conductivity using a.c. impedance technique. The formation of the solid solution was confirmed by XRD, Raman, FTIR, DR-UV–Vis, PL, BET,FE-SEM, and EDX. The obtained ionic conductivities (in S cm-1) for TiO2 (1.92 9 10-5), Ti0.95Ni0.05O2-δ(2.78 9 10-5), Ti0.95Zn0.05O2-δ (2.16 9 10-5) at 973 K and for Ti0.95Cu0.05O2-δ (2.39 9 10-3) at 1023 K are comparable to commercially available YSZ operating at high temperature and doped ceria electrolytes. The ionic conductivities were found to increase linearly in the temperature range of 673–1023 K. The lower activation energy of 1.08, 1.41, and 1.17 eV was obtained for TiO2, Ti0.95Ni0.05O2-δ, and Ti0.95Zn0.05O2-δ,respectively. Thus, low-cost Ni, Cu, Zn-doped TiO2 solid solutions may be regarded as plausible electrolyte materials for SOFCs.

      Structural and electrical properties of Ti0.95M0.05O2−δ (M = Ni, Cu, Zn) are reported for their plausible applications as SOFC electrolytes. Lower Ea of 1.08, 1.41, and 1.17 eV are obtained for TiO2, Ni-TiO2 and Zn-TiO2, samples respectively. The Cu-TiO2 showed comparable oxide ion conductivity with other potential electrolyte materials.

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