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Microstructural, antifungal and photocatalytic activity of NiO–ZnO nanocomposite

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this work, NiO–ZnO nanocomposite (NC) was prepared through a facile, low-temperature, sol–gel route. Zinc acetate dihydrate, nickel chloride hexahydrate, cetyltrimethyl ammonium bromide (CTAB), and citric acid were used in the synthesis of the material. Then, the sample was kept in the muffle furnace at a temperature of 600°C for 2 h. X-ray diffraction (XRD), Fourier transform infrared (FTIR) spectroscopy, field emission scanning electron microscopy (FESEM), UV–Visible spectroscopy, and photocatalytic and antifungal investigations were used to characterize the synthesized nanocrystallites. The XRD data showedthe polycrystalline hexagonal ZnO nanoparticles and cubic NiO crystallites. FTIR studies confirmed the presence of Zn-O and Ni-O bonds in the sample. The FESEM analysis showed the morphology of nanocrystallitescharacterized by their homogeneous shape and size. The absorbance curves from the UV–Visible spectroscopy investigation revealed the bandgap of 3.17 eV. The research findings demonstrate that the NiO–ZnO NC possesses the significant level of selected microbial pathogens. Industrial dyesmake water unhealthy for drinking. Among these dyes, methylene blue (MB) is toxic, carcinogenic, and non-biodegradable, and causes a severe threat to human health and environmental safety. Hence, it is necessary to develop efficient and environmentally friendly technology to remove MB from wastewater. The ZnO–NiO NC degraded the MB dye pollutant under visible irradiation (125 W), according to photocatalytic tests. After 120 min of exposure, the photocatalytic investigations demonstrated 75% degradation efficiency.
Wydawca
Rocznik
Strony
107--115
Opis fizyczny
Bibliogr. 21 poz., rys., tab.
Twórcy
autor
  • School of light Industry, Harbin University of commerce, Harbin, Heilongjiang 150006, China
  • Saveetha Dental College, Saveetha Institute of Medical and Technical Sciences, Chennai-602105, Tamilnadu, India
Bibliografia
  • [1] Malato S, Fernandez-Ibanez P, Maldonado MI, Blanco J, Gernjak W. Decontamination and disinfection of water by solar photocatalysis: recent overview and trends. Catal Today. 2009;147: 1–59.
  • [2] Chong MN, Jin B, Chow CWK, Saint C. Recent developments in photocatalytic water treatment technology: areview. Water Res. 2010;44:2997–3027.
  • [3] Bodzek M, Rajca M. Photocatalysis in the treatment and disinfection of water. Part I. Theoretical backgrounds. Ecol Chem Eng S. 2012;19(4):489–512.
  • [4] Mishra S, Sundaram B. A review of the photocatalysis process used for wastewater treatment. In: Materials Today: Proceedings, 2023; doi: 10.1016/j.matpr.2023.07.147
  • [5] Davies J, Davies D. Origins and evolution of antibiotic resistance. Microbiol Mol Biol Rev. 2010;74(3): 417–33.
  • [6] Cavalieri F, Tortora M, Stringaro A, Colone M, Baldassarri L. Nanomedicines for antimicrobial interventions. J Hosp Infect. 2014;88(4): 183–90.
  • [7] Reygaert W. An overview of the antimicrobial resistance mechanisms of bacteria. AIMS Microbiol. 2018;4(3):482–501.
  • [8] Ong CB, Ng LY, Mohammad AW. A review of ZnO nanoparticles as solar photocatalysts: synthesis, mechanisms, and applications. Renew Sust Energ Rev. 2018;81: 536–51.
  • [9] Udayachandran Thampy US, Mahesh A, Sibi KS, Jawahar IN, Biju V. Enhanced photocatalytic activity of ZnO–NiO nanocomposites, synthesized through a facile sonochemical route. SN Appl Sci. 2019;1: 1478.
  • [10] Mirzaeifard Z, Shariatinia Z, Jourshabani M, Darvishi SMR. ZnO photocatalyst revisited: effective photocatalytic degradation of emerging contaminants using S-doped ZnO nanoparticles under visible light radiation. Ind Eng Chem Res. 2020;59: 15894–911.
  • [11] Hussein IF, Nusseif AD, Majeed AMA. Analytical study of ZnO:NiO nanocomposite of antibacterial activities. Plant Archives. 2020;20: 2747–50.
  • [12] Karthikeyan V, Padmanaban A, Dhanasekaran T. Synthesis and characterization of ZnO:NiO and its photocatalytic activity. Mech Mater Sci Eng J.2017;10: 95–99. doi: 10.2412/mmse.23.8.292
  • [13] Weldekirstos HD, Habtewold B, Kabtamu DM. Surfactant-assisted synthesis of NiO-ZnO and NiOCuO nanocomposites for enhanced photocatalytic degradation of methylene blue under UV light irradiation. Front Mater. 2022;9: 832439.
  • [14] Jolaei S, Mirzaei M, Hassanpour A, Safardoust-Hojaghan H, Khani A. Using ZnO, NiO, and ZnO/NiO as nano photocatalysts for removal of acid violet and rhodamine B from wastewater. J Nanostruct. 2022;12(3):761–70.
  • [15] Sajjad B, Ali S, Farrukh AM. Synthesis of NiO/ZnO nanoparticles: application for photodegradation of methylene blue. J Sci Comput Eng Res. 2020: 95–9.
  • [16] Poliukhova V, Cho SH, Orlov A. ZnO–NiO composites for photocatalysis of methylene blue. In: 2018 IEEE 38th International Conference on Electronics and Nanotechnology (ELNANO), Kyiv, Ukraine; 2018. p. 191–6.
  • [17] Kerli S, Alver Ü. Preparation and characterisation of ZnO/NiO nanocomposite for solar cell applications. J Nanotechnol. 2016: Article ID 4028062, 5 pages.
  • [18] Hameed A, Montini T, Gombac V, FornasieroP. Photocatalytic decolourization of dyes on NiO–ZnO nano-composites. Photochem Photobiol Sci. 2009;8: 677–82.
  • [19] Haq S, Raja AW, Rehman SU, Mezni A, Ali MB, Hedfi A, et al. Phytogenic synthesis and characterization of NiO-ZnO nanocomposite for the photodegradation of brilliant green and 4-nitrophenol. J Chem. 2021: Article ID 3475036. doi: 10.1155/2021/3475036
  • [20] Paul D, Maiti S, Sethi DP, NeogiS. Bi-functional NiO–ZnO nanocomposite: synthesis, characterization, antibacterial and photo-assisteddegradation study. Adv Powder Technol. 2021;32: 131–43.
  • [21] Hassanpour M, Safardoust-Hojaghan H, Salavati-NiasariM. Rapid and eco-friendly synthesis of NiO/ZnO nanocomposite and its application in decolorization of dye. J Mater Sci: MaterElectron. 2017;28: 10830–7.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1066da9a-dd7f-426a-a267-3422997f2488
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