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Visible-Light-Active Iodide-Doped BiOBr Coatings for Sustainable Infrastructure.

Mingyue WangRaul Quesada-CabreraSanjayan SathasivamMatthew Oliver BluntJoanna BorowiecClaire J Carmalt
Published in: ACS applied materials & interfaces (2023)
The search for efficient materials for sustainable infrastructure is an urgent challenge toward potential negative emission technologies and the global environmental crisis. Pleasant, efficient sunlight-activated coatings for applications in self-cleaning windows are sought in the glass industry, particularly those produced from scalable technologies. The current work presents visible-light-active iodide-doped BiOBr thin films fabricated using aerosol-assisted chemical vapor deposition. The impact of dopant concentration on the structural, morphological, and optical properties was studied systematically. The photocatalytic properties of the parent materials and as-deposited doped films were evaluated using the smart ink test. An optimized material was identified as containing 2.7 atom % iodide dopant. Insight into the photocatalytic behavior of these coatings was gathered from photoluminescence and photoelectrochemical studies. The optimum photocatalytic performance could be explained from a balance between photon absorption, charge generation, carrier separation, and charge transport properties under 450 nm irradiation. This optimized iodide-doped BiOBr coating is an excellent candidate for the photodegradation of volatile organic pollutants, with potential applications in self-cleaning windows and other surfaces.
Keyphrases
  • visible light
  • quantum dots
  • human health
  • public health
  • risk assessment
  • room temperature
  • staphylococcus aureus
  • escherichia coli
  • mass spectrometry
  • cystic fibrosis
  • gas chromatography
  • light emitting