G. Kholafazadehastamal Et Al. , "Maximizing detection sensitivity of levofloxacin and tryptophan in dairy products: a carbon-based electrochemical sensor incorporating Ti3AlC2 MAX phase and activated nanodiamonds," Carbon Letters , vol.34, no.3, pp.929-940, 2024
Kholafazadehastamal, G. Et Al. 2024. Maximizing detection sensitivity of levofloxacin and tryptophan in dairy products: a carbon-based electrochemical sensor incorporating Ti3AlC2 MAX phase and activated nanodiamonds. Carbon Letters , vol.34, no.3 , 929-940.
Kholafazadehastamal, G., Khan, M., SOYLAK, M., & ERK, N., (2024). Maximizing detection sensitivity of levofloxacin and tryptophan in dairy products: a carbon-based electrochemical sensor incorporating Ti3AlC2 MAX phase and activated nanodiamonds. Carbon Letters , vol.34, no.3, 929-940.
Kholafazadehastamal, Ghazaleh Et Al. "Maximizing detection sensitivity of levofloxacin and tryptophan in dairy products: a carbon-based electrochemical sensor incorporating Ti3AlC2 MAX phase and activated nanodiamonds," Carbon Letters , vol.34, no.3, 929-940, 2024
Kholafazadehastamal, Ghazaleh Et Al. "Maximizing detection sensitivity of levofloxacin and tryptophan in dairy products: a carbon-based electrochemical sensor incorporating Ti3AlC2 MAX phase and activated nanodiamonds." Carbon Letters , vol.34, no.3, pp.929-940, 2024
Kholafazadehastamal, G. Et Al. (2024) . "Maximizing detection sensitivity of levofloxacin and tryptophan in dairy products: a carbon-based electrochemical sensor incorporating Ti3AlC2 MAX phase and activated nanodiamonds." Carbon Letters , vol.34, no.3, pp.929-940.
@article{article, author={Ghazaleh Kholafazadehastamal Et Al. }, title={Maximizing detection sensitivity of levofloxacin and tryptophan in dairy products: a carbon-based electrochemical sensor incorporating Ti3AlC2 MAX phase and activated nanodiamonds}, journal={Carbon Letters}, year=2024, pages={929-940} }