Facile synthesis of ZrO₂-Bi₂O₂(CO)₃ composite materials prepared in one-pot synthesis for high photoactivity in efficient hydrogen production

Novel composite ZrO₂-Bi₂O₂(CO)₃ (ZrBi) materials were prepared in one step by the chemical co-precipitation method under the same synthesis conditions. Bi₂O₂(CO)₃ was incorporated to ZrO₂ adding in 0.5, 1 and 2 mol%. The ZrBi composites were characterized by different techniques: XRD, FTIR, PL, DRS, N₂ physisorption, XPS, SEM and HR-TEM. A 50–50% methanol–water solution was used and the results showed that the photocatalytic hydrogen production rate in the ZrBi composites was significantly enhanced when 1 mol% of Bi₂O₂(CO)₃ (ZrBi-1) is added, obtaining a hydrogen production of 8753 µmolH₂*g⁻¹. The novelty of this material is that is part microcrystalline and part crystalline, and despite having a band gap energy of 3.9 eV is used without calcining, having considerable energy savings. In addition, oxygen vacancies are observed as well as the presence of heterojunctions between the microcrystalline phase of ZrO₂ and the orthogonal structure of Bi₂O₂(CO₃). The presence of heterojunctions and oxygen vacancies increases the transfer of charges, decreasing the probability of recombination of carrier charges (hole-electron pair) and increasing photocatalytic efficiency.