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Sunlight Assisted Photocatalytic Degradation of Ciprofloxacin in Water Using Fe Doped ZnO Nanoparticles for Potential Public Health Applications

Author

Listed:
  • Sourav Das

    (School of Biotechnology, Kalinga Institute of Industrial Technology (KIIT), Bhubaneswar 751024, India
    S.D. and S.G. have equal contribution.)

  • Soumen Ghosh

    (School of Biotechnology, Kalinga Institute of Industrial Technology (KIIT), Bhubaneswar 751024, India
    S.D. and S.G. have equal contribution.)

  • Ananyo Jyoti Misra

    (School of Biotechnology, Kalinga Institute of Industrial Technology (KIIT), Bhubaneswar 751024, India)

  • Ashok J. Tamhankar

    (School of Biotechnology, Kalinga Institute of Industrial Technology (KIIT), Bhubaneswar 751024, India
    Department of Public Health Sciences, Karolinska Institutet, SE 17177 Stockholm, Sweden
    A.J.T., C.S.L. and S.K.T. have equal contribution.)

  • Amrita Mishra

    (School of Biotechnology, Kalinga Institute of Industrial Technology (KIIT), Bhubaneswar 751024, India)

  • Cecilia Stålsby Lundborg

    (Department of Public Health Sciences, Karolinska Institutet, SE 17177 Stockholm, Sweden
    A.J.T., C.S.L. and S.K.T. have equal contribution.)

  • Suraj K. Tripathy

    (School of Biotechnology, Kalinga Institute of Industrial Technology (KIIT), Bhubaneswar 751024, India
    School of Chemical Technology, Kalinga Institute of Industrial Technology (KIIT), Bhubaneswar 751024, India
    A.J.T., C.S.L. and S.K.T. have equal contribution.)

Abstract

Antibiotic residues in the aquatic environment have the potential to induce resistance in environmental bacteria, which ultimately might get transferred to pathogens making treatment of diseases difficult and poses a serious threat to public health. If antibiotic residues in the environment could be eliminated or reduced, it could contribute to minimizing antibiotic resistance. Towards this objective, water containing ciprofloxacin was treated by sunlight-assisted photocatalysis using Fe- doped ZnO nanoparticles for assessing the degradation potential of this system. Parameters like pH, temperature, catalytic dosage were assessed for the optimum performance of the system. To evaluate degradation of ciprofloxacin, both spectrophotometric as well as microbiological (loss of antibiotic activity) methods were employed. 100 mg/L Fe-doped ZnO nanoparticle catalyst and sunlight intensity of 120,000–135,000 lux system gave optimum performance at pH 9 at 30 °C and 40 °C. Under these conditions spectrophotometric analysis showed complete degradation of ciprofloxacin (10 mg/L) at 210 min. Microbiological studies showed loss of antibacterial activity of the photocatalytically treated ciprofloxacin-containing water against Staphylococcus aureus (10 8 CFU) in 60 min and for Escherichia coli (10 8 CFU) in 75 min. The developed system, thus possess a potential for treatment of antibiotic contaminated waters for eliminating/reducing antibiotic residues from environment.

Suggested Citation

  • Sourav Das & Soumen Ghosh & Ananyo Jyoti Misra & Ashok J. Tamhankar & Amrita Mishra & Cecilia Stålsby Lundborg & Suraj K. Tripathy, 2018. "Sunlight Assisted Photocatalytic Degradation of Ciprofloxacin in Water Using Fe Doped ZnO Nanoparticles for Potential Public Health Applications," IJERPH, MDPI, vol. 15(11), pages 1-11, November.
  • Handle: RePEc:gam:jijerp:v:15:y:2018:i:11:p:2440-:d:179921
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    Cited by:

    1. Ashok J. Tamhankar & Cecilia Stålsby Lundborg, 2019. "Antimicrobials and Antimicrobial Resistance in the Environment and Its Remediation: A Global One Health Perspective," IJERPH, MDPI, vol. 16(23), pages 1-7, November.

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