Ates, A. K. Et Al. 2020. Synthesis of Cysteine Modified MoS(2)Nanocomposite: A Biocompatible Electrochemical Sensor Material and its Application to the Determination of Antidiabetic Dapagliflozin. ELECTROANALYSIS , vol.32, no.7 , 1480-1487.

Ates, A. K., ÇELİKKAN, H., & ERK, N., (2020). Synthesis of Cysteine Modified MoS(2)Nanocomposite: A Biocompatible Electrochemical Sensor Material and its Application to the Determination of Antidiabetic Dapagliflozin. ELECTROANALYSIS , vol.32, no.7, 1480-1487.

Ates, Ali, HÜSEYİN ÇELİKKAN, And NEVİN ERK. "Synthesis of Cysteine Modified MoS(2)Nanocomposite: A Biocompatible Electrochemical Sensor Material and its Application to the Determination of Antidiabetic Dapagliflozin," ELECTROANALYSIS , vol.32, no.7, 1480-1487, 2020

Ates, Ali K. Et Al. "Synthesis of Cysteine Modified MoS(2)Nanocomposite: A Biocompatible Electrochemical Sensor Material and its Application to the Determination of Antidiabetic Dapagliflozin." ELECTROANALYSIS , vol.32, no.7, pp.1480-1487, 2020

Ates, A. K. ÇELİKKAN, H. And ERK, N. (2020) . "Synthesis of Cysteine Modified MoS(2)Nanocomposite: A Biocompatible Electrochemical Sensor Material and its Application to the Determination of Antidiabetic Dapagliflozin." ELECTROANALYSIS , vol.32, no.7, pp.1480-1487.

@article{article, author={Ali Kemal Ates Et Al. }, title={Synthesis of Cysteine Modified MoS(2)Nanocomposite: A Biocompatible Electrochemical Sensor Material and its Application to the Determination of Antidiabetic Dapagliflozin}, journal={ELECTROANALYSIS}, year=2020, pages={1480-1487} }