High photoactivity of Bi₂O₂(CO₃)/Zn₅(CO₃)₂(OH)₆ prepared by a facile one-pot synthesis for the efficient degradation of phenol under UV light

The synthesis of Bi₂O₂(CO₃)/Zn₅(CO₃)₂(OH)₆ heterojunction at low-temperature and template-free synthesis was carried out promoting the growth of sheet-like structures. The novel material has shown a high photocatalytic performance in the phenol removal under UV light when is compared to the Zn₅(CO₃)₂(OH)₆ and Bi₂O₂(CO₃) bare photocatalysts. It is worth mentioning that, the material composed by a molar ratio of Bi/Zn = 0.08 showed the highest percentage of phenol mineralization. All the synthesized materials were characterized by X-ray diffraction, infrared spectroscopy with Fourier transform, diffuse reflectance spectroscopy, adsorption-desorption isotherms of N₂, X-ray photoelectron spectroscopy, scanning electron microscopy and high-resolution transmission electron microscopy. The addition of Bi₂O₂(CO₃) to the Zn₅(CO₃)₂(OH)₆ structure promotes the oxygen vacancies (OV) increment which make slower the recombination process between the e⁻ and h⁺ species. This is because the OV sites act like a trap of the photogenerated holes. Thus, the photocatalytic activity is enhanced when Zn₅(CO₃)₂(OH)₆ is modified by the addition of Bi₂O₂(CO₃) propitiate an increase on the production of hydroxyl and superoxide radicals as oxidant species for the phenol removal. As a novel material, Bi₂O₂(CO₃)/Zn₅(CO₃)₂(OH)₆ could potentially be applied as an efficient material for phenol removal in photocatalysis due to the high performance, facile preparation and the synergetic effect achieved by the heterojunction presence.