Nazli, I. H. Et Al. 2020. Synthesis and Characterization of Two Novel Oxazol-5-ones Derivatives and Their Multifunctional Properties; pH Sensitivity, Electropolymerizability and Antiproliferative Activity. JOURNAL OF FLUORESCENCE , vol.30, no.5 , 1063-1073.

Nazli, I. H., ALP, S., TOPKAYA TAŞKIRAN, D., Guney Afacan, I., & NALBANTSOY, A., (2020). Synthesis and Characterization of Two Novel Oxazol-5-ones Derivatives and Their Multifunctional Properties; pH Sensitivity, Electropolymerizability and Antiproliferative Activity. JOURNAL OF FLUORESCENCE , vol.30, no.5, 1063-1073.

Nazli, Ibrahim Et Al. "Synthesis and Characterization of Two Novel Oxazol-5-ones Derivatives and Their Multifunctional Properties; pH Sensitivity, Electropolymerizability and Antiproliferative Activity," JOURNAL OF FLUORESCENCE , vol.30, no.5, 1063-1073, 2020

Nazli, Ibrahim H. Et Al. "Synthesis and Characterization of Two Novel Oxazol-5-ones Derivatives and Their Multifunctional Properties; pH Sensitivity, Electropolymerizability and Antiproliferative Activity." JOURNAL OF FLUORESCENCE , vol.30, no.5, pp.1063-1073, 2020

Nazli, I. H. Et Al. (2020) . "Synthesis and Characterization of Two Novel Oxazol-5-ones Derivatives and Their Multifunctional Properties; pH Sensitivity, Electropolymerizability and Antiproliferative Activity." JOURNAL OF FLUORESCENCE , vol.30, no.5, pp.1063-1073.

@article{article, author={Ibrahim Hanif Nazli Et Al. }, title={Synthesis and Characterization of Two Novel Oxazol-5-ones Derivatives and Their Multifunctional Properties; pH Sensitivity, Electropolymerizability and Antiproliferative Activity}, journal={JOURNAL OF FLUORESCENCE}, year=2020, pages={1063-1073} }