Flux syntheses of La-doped NaTaO3 and its photocatalytic activity

The La-doped (2%) NaTaO3 perovskite-type solid was synthesized in high purity and homogeneity within a molten Na2SO4/K2SO4 (1:1 molar ratio) flux in much shortened reaction times, 0.5–1.0 h, compared to conventional solid-state techniques. The particle morphologies were investigated by scanning electron microscopy and were irregular block-shaped with dimensions of 500–100 nm and smaller surface features. The bulk particle sizes were found to decrease with increasing amounts of flux used in the synthesis, from 1:1 (NaTaO3:flux), 1:2 to 1:3 for a reaction duration of 1 h. Photocatalytic activities of the NaTaO3 products were measured in an aqueous methanol solution to be 535–1115 μmol H2 h−1 g−1, and which increased with increasing particle sizes and decreasing amounts of flux used in the synthesis. These rates were up to ×2 greater than that measured for a conventionally prepared La-doped (2%) NaTaO3 sample, which is currently one of the most efficient UV-photocatalysts known.

A new molten-salt flux synthesis of La-doped NaTaO3 is reported, which yields aggregates of nanometer-sized particles with irregular block-like morphologies. The flux-synthesized products exhibit an enhanced photocatalytic activity compared to products obtained by conventional solid-state procedures.Figure optionsDownload as PowerPoint slide