LaTiON nanopowders (NPs) with low surface defect density nitridation of flame made NPs retaining simple perovskite structure.

This work introduces a novel route to perovskite LaTiON nanopowders (NPs) nitridation of perovskite LaTiO NPs in an NH gas flow at 1050 °C/NH/15 h, in which a simple perovskite structure (ABX) is retained during nitridation. The LaTiO NP is formed with a trace of a second phase in a precursor oxide NP (LTO-4/3) produced using liquid-feed flame spray pyrolysis (LF-FSP) of a metallo-organic ethanol solution with La/Ti = 4/3. The characterization of the resulting powders allows for a comparison with LaTiON NPs synthesized by the nitridation of the LaTiO precursor oxide NP (LTO-1) with a perovskite slab structure (ABX) also prepared by LF-FSP of a La/Ti = 1 solution. Williamson-Hall plots suggest that the as-produced LaTiON from LTO-1 offers a quite small but effective crystallite size of 16-18 nm with almost no lattice spacing fluctuations, while LaTiON from LTO-4/3 presents a larger effective crystallite size of 50-52 nm with some lattice spacing fluctuations. UV-vis diffuse reflectance analysis reveals that, unlike LaTiON from LTO-1, the spectra of LaTiON from LTO-4/3 show a quite low absorption background above the wavelength of the optical absorption edge (∼580 nm), suggesting good crystallinity with a very low surface defect density. Both oxynitride NPs appear to offer utility as inorganic pigments with different colours, while LaTiON NPs from LTO-4/3 have advantages for various applications, including potential as a visible-light-driven water splitting photocatalyst.