APA

Nakbi A., Bouzid M., Ayachi F., Aouaini F. & Ben Lamine A. (20200514). Investigation of caffeine taste mechanism through a statistical physics modeling of caffeine dose-taste response curve by a biological putative caffeine adsorption process in electrophysiological response. : Progress in biophysics and molecular biology.

Chicago

Nakbi Amel, Bouzid Mohamed, Ayachi Fakher, Aouaini Fatma and Ben Lamine Abdelmottaleb. 20200514. Investigation of caffeine taste mechanism through a statistical physics modeling of caffeine dose-taste response curve by a biological putative caffeine adsorption process in electrophysiological response. : Progress in biophysics and molecular biology.

Harvard

Nakbi A., Bouzid M., Ayachi F., Aouaini F. and Ben Lamine A. (20200514). Investigation of caffeine taste mechanism through a statistical physics modeling of caffeine dose-taste response curve by a biological putative caffeine adsorption process in electrophysiological response. : Progress in biophysics and molecular biology.

MLA

Nakbi Amel, Bouzid Mohamed, Ayachi Fakher, Aouaini Fatma and Ben Lamine Abdelmottaleb. Investigation of caffeine taste mechanism through a statistical physics modeling of caffeine dose-taste response curve by a biological putative caffeine adsorption process in electrophysiological response. : Progress in biophysics and molecular biology. 20200514.