4.8 Article

New insights into the efficient charge transfer of ternary chalcogenides composites of TiO2

Journal

APPLIED CATALYSIS B-ENVIRONMENTAL
Volume 282, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.apcatb.2020.119612

Keywords

Photocatalysis; Band edge alignment; Water splitting; Antimicrobial inactivation; Antibiotics degradation; Computational study

Funding

  1. Institute of Technology Sligo President [PPRES052, PPRES050]
  2. Trinity Centre for High Performance Computing (TCHPC) [HPC_16_00953]
  3. Irish Centre for High-End Computing (ICHEC) [is-phy002c, is-phy003c]
  4. Department for the Economy in Ireland
  5. Department of Jobs, Enterprise and Innovation in Ireland

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A two-step solvothermal synthesis method was successfully used to prepare AgXSe2-TiO2 (X = In, Bi) composites, with DFT study and experimental results confirming their structural characteristics. These composites exhibited excellent photocatalytic performance, with detailed discussions on the delayed charge recombination of photogenerated electron-hole pairs and interface properties.
A two-step solvothermal synthesis was adopted to prepare AgXSe2-TiO2 (X = In, Bi) composites. DFT study of the pristine parent samples showed the formation of the hexagonal phase of AgBiSe2, and tetragonal phase of AgInSe2 and TiO2, which corroborated the experimentally synthesised structures. Both the AgBiSe2-TiO2 and AgInSe2-TiO2 composites displayed enhanced visible light absorption and reduced band gap in the UV-DRS patterns. The XPS results exhibited a shift in binding energy values and the TEM results showed the formation of spherical nanoparticles of both AgBiSe2 and AgInSe2. The PL signals displayed delayed recombination of the photogenerated excitons. The as synthesised materials were studied for their photocatalytic efficiency, by hy-drogen generation, degradation of doxycycline, and antimicrobial disinfection (E. coli and S. aureus). The composite samples illustrated more than 95 % degradation results within 180 min and showed 5 log reductions of bacterial strains within 30 min of light irradiation. The hydrogen production outcomes were significantly improved as the AgBiSe2 and AgInSe2 based composites illustrated 180-fold and 250-fold enhanced output compared to their parent samples. The enhanced photocatalytic efficiency displayed is attributed to the delayed charge recombination of the photogenerated electron-hole pairs in the AgXSe2-TiO2 interface. Formation of a p-n nano heterojunction for AgBiSe2-TiO2 and type II heterojunction for AgInSe2-TiO2 composite are explained.

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