Tantalum Oxide Nanoparticles Synthesized by Thermal Chemical Vapor Deposition (CVD) Method for Photocatalytic Overall Water Splitting

Abstract

Tantalum oxide nanoparticles were synthesized by a thermal CVD method using tantalum (V) ethoxide as a raw material for photocatalytic applications. Their characteristics were compared with those synthesized by a conventional hydrolysis method using same raw material. The CVD process with a set temperature of 700°C produced the nanoparticles with single crystal, small average particle size (APS) of 13 nm and necking at the edge of each nanoparticle, giving high specific surface area (SSA) of 46.5 m²/g. Computational fluid dynamics revealed that the nanoparticles were formed in the carrier gas at 530-610°C and 15 kPa in the reactor. On the other hand, conventional hydrolysis method with calcination temperature of 800°C offered the lump of tantalum oxide nanoparticles with strong aggregation, much larger APSs (32 nm) and much lower SSAs (10.1 m²/g). Evaluation of photocatalytic water splitting activities under ultraviolet irradiation (λ > 200 nm) for both the nanoparticle loaded with RuO₂ as a co-catalyst showed the stable stoichiometric decomposition of H₂O into H₂ and O₂. The CVD-derived nanoparticles gave higher decomposition rate by ≈58% than that synthesized by the hydrolysis method, which was contributed to higher SSA due to characteristics of nanoparticles necking only at the edges.