O. Yildirim And B. Derkus, "Triazine-based 2D covalent organic frameworks improve the electrochemical performance of enzymatic biosensors," JOURNAL OF MATERIALS SCIENCE , vol.55, no.7, pp.3034-3044, 2020
Yildirim, O. And Derkus, B. 2020. Triazine-based 2D covalent organic frameworks improve the electrochemical performance of enzymatic biosensors. JOURNAL OF MATERIALS SCIENCE , vol.55, no.7 , 3034-3044.
Yildirim, O., & Derkus, B., (2020). Triazine-based 2D covalent organic frameworks improve the electrochemical performance of enzymatic biosensors. JOURNAL OF MATERIALS SCIENCE , vol.55, no.7, 3034-3044.
Yildirim, Onur, And Burak Derkus. "Triazine-based 2D covalent organic frameworks improve the electrochemical performance of enzymatic biosensors," JOURNAL OF MATERIALS SCIENCE , vol.55, no.7, 3034-3044, 2020
Yildirim, Onur And Derkus, Burak. "Triazine-based 2D covalent organic frameworks improve the electrochemical performance of enzymatic biosensors." JOURNAL OF MATERIALS SCIENCE , vol.55, no.7, pp.3034-3044, 2020
Yildirim, O. And Derkus, B. (2020) . "Triazine-based 2D covalent organic frameworks improve the electrochemical performance of enzymatic biosensors." JOURNAL OF MATERIALS SCIENCE , vol.55, no.7, pp.3034-3044.
@article{article, author={Onur Yildirim And author={Burak Derkus}, title={Triazine-based 2D covalent organic frameworks improve the electrochemical performance of enzymatic biosensors}, journal={JOURNAL OF MATERIALS SCIENCE}, year=2020, pages={3034-3044} }