Affiliations 

  • 1 Dept. of Environ. Eng., Sunchon Nat'l Univ., 255 Sunchon 57922, South Korea
  • 2 Higher Institute Center of Excellences, Univ. Malaysia Terengganu, Kuala Neruss 21030, Malaysia
  • 3 School of Environ. Eng., Univ. of Seoul, Seoul 02504, South Korea
  • 4 Dept. of Nano & Advanced Mater. Eng., Jeonju Univ., 303 Jeonju 55069, South Korea
  • 5 Dept. of Environ. Eng., Sunchon Nat'l Univ., 255 Sunchon 57922, South Korea. Electronic address: [email protected]
Environ Res, 2023 Jan 01;216(Pt 3):114657.
PMID: 36328223 DOI: 10.1016/j.envres.2022.114657

Abstract

Nickel-impregnated TiO2 photocatalyst (NiTP) responding to visible light was prepared by the liquid phase plasma (LPP) method, and its photoactivity was evaluated in degrading an antibiotic (oxytetracycline, OTC). For preparing the photocatalyst, nickel was uniformly impregnated onto TiO2 (P-25) powder, and the nickel content increased as the number of LPP reactions increased. In addition, the morphology and lattice of NiTP were observed through various instrumental analyses, and it was confirmed that NiO-type nanoparticles were impregnated in NiTP. Fundamentally, as the amount of impregnated nickel in the TiO2 powder increased sufficiently, the band gap energy of TiO2 decreased, and eventually, the NiTP excited by visible light was synthesized. Further, OTC had a decomposition reaction pathway in which active radicals generated in OTC photocatalytic reaction under NiTP were finally mineralized through reactions such as decarboxamidation, hydration, deamination, demethylation, and dehydroxylation. In effect, we succeeded in synthesizing a photocatalyst useable under visible light by performing only the LPP single process and developed a new advanced oxidation process (AOP) that can remove toxic antibiotics.

* Title and MeSH Headings from MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.