Structural study and proton transport of bulk nanograined Y-doped BaZrO 3 oxide protonics materials

Abstract

Nanograin size of about 3-5nm of 20mol% Y-doped BaZrO 3 (BZY20) proton conducting solid electrolyte has been prepared at low processing temperature (< 200°C) and a bulk nanograined sample has been obtained at room temperature using cubic anvil pressing at 4GPa. The grain morphology and structural changes of the as-pressed and annealed BZY20 samples have been studied using powder X-ray diffraction (XRD), high resolution transmission electron microscope (HRTEM) equipped with energy dispersive X-ray (EDX), and electron diffraction analyses. Due to the presence of inhomogeneity such as trace formations of hydroxide phases of the as-pressed sample as observed from thermogravimetric and differential thermal analysis (TG/DTA), Fourier transform infrared (FTIR) results, and from the thermodynamics phase equilibria viewpoint, the conductivity is immeasurable. On the other hand, the sample annealed at 800°C with ∼ 10nm grain size shows a rather low protonic conductivity possibly due to poor interfacial grain boundary contacts and structurally disordered interface. However, as the grain grows to a well-crystallized structure with better interfacial and refined grain boundary and better yttrium distribution from grain interior to the grain boundaries, the total protonic conductivity increases and shows a good agreement with the results obtained using proton and deuteron isotope exchange reaction. The total protonic conductivities, bulk and grain boundary contributions, at 500°C for samples annealed at 800°C, 1250°C, and 1500°C are 8.7 × 10 − 6Scm − 1, 2 × 10 − 3Scm − 1, and 4 × 10 − 3Scm − 1 with grain sizes of about 10nm, 50nm, and 200nm, respectively.