Citation Formats
A novel flow injection amperometric method for sensitive determination of total antioxidant capacity at cupric-neocuproine complex modified MWCNT glassy carbon electrode
  • IEEE
  • ACM
  • APA
  • Chicago
  • MLA
  • Harvard
  • BibTeX

S. AYAZ Et Al. , "A novel flow injection amperometric method for sensitive determination of total antioxidant capacity at cupric-neocuproine complex modified MWCNT glassy carbon electrode," MICROCHIMICA ACTA , vol.189, no.4, 2022

AYAZ, S. Et Al. 2022. A novel flow injection amperometric method for sensitive determination of total antioxidant capacity at cupric-neocuproine complex modified MWCNT glassy carbon electrode. MICROCHIMICA ACTA , vol.189, no.4 .

AYAZ, S., ARDA, A., DİLGİN, Y., & APAK, M. R., (2022). A novel flow injection amperometric method for sensitive determination of total antioxidant capacity at cupric-neocuproine complex modified MWCNT glassy carbon electrode. MICROCHIMICA ACTA , vol.189, no.4.

AYAZ, SELEN Et Al. "A novel flow injection amperometric method for sensitive determination of total antioxidant capacity at cupric-neocuproine complex modified MWCNT glassy carbon electrode," MICROCHIMICA ACTA , vol.189, no.4, 2022

AYAZ, SELEN Et Al. "A novel flow injection amperometric method for sensitive determination of total antioxidant capacity at cupric-neocuproine complex modified MWCNT glassy carbon electrode." MICROCHIMICA ACTA , vol.189, no.4, 2022

AYAZ, S. Et Al. (2022) . "A novel flow injection amperometric method for sensitive determination of total antioxidant capacity at cupric-neocuproine complex modified MWCNT glassy carbon electrode." MICROCHIMICA ACTA , vol.189, no.4.

@article{article, author={SELEN AYAZ Et Al. }, title={A novel flow injection amperometric method for sensitive determination of total antioxidant capacity at cupric-neocuproine complex modified MWCNT glassy carbon electrode}, journal={MICROCHIMICA ACTA}, year=2022}