Blair, E. O. Et Al. 2020. Biologically modified microelectrode sensors provide enhanced sensitivity for detection of nucleic acid sequences from Mycobacterium tuberculosis. Sensors and Actuators Reports , vol.2, no.1 , 100008.

Blair, E. O., Hannah, S., Vezza, V., AVCI, H., Kocagoz, T., Hoskisson, P. A., ... Güzel, F. D.(2020). Biologically modified microelectrode sensors provide enhanced sensitivity for detection of nucleic acid sequences from Mycobacterium tuberculosis. Sensors and Actuators Reports , vol.2, no.1, 100008.

Blair, Ewen Et Al. "Biologically modified microelectrode sensors provide enhanced sensitivity for detection of nucleic acid sequences from Mycobacterium tuberculosis," Sensors and Actuators Reports , vol.2, no.1, 100008, 2020

Blair, Ewen O. Et Al. "Biologically modified microelectrode sensors provide enhanced sensitivity for detection of nucleic acid sequences from Mycobacterium tuberculosis." Sensors and Actuators Reports , vol.2, no.1, pp.100008, 2020

Blair, E. O. Et Al. (2020) . "Biologically modified microelectrode sensors provide enhanced sensitivity for detection of nucleic acid sequences from Mycobacterium tuberculosis." Sensors and Actuators Reports , vol.2, no.1, p.100008.

@article{article, author={Ewen O Blair Et Al. }, title={Biologically modified microelectrode sensors provide enhanced sensitivity for detection of nucleic acid sequences from Mycobacterium tuberculosis}, journal={Sensors and Actuators Reports}, year=2020, pages={100008} }