Author/Authors :
Yagodynets, Petro I. Chernivtsi National University- Kotsyubyns’ky - Chernivtsi, Ukraine , Tkach, Volodymyr V. Chernivtsi National University- Kotsyubyns’ky - Chernivtsi, Ukraine , Kukovs’ka, Iryna L. Chernivtsi National University- Kotsyubyns’ky - Chernivtsi, Ukraine , Ivanushko, Yana G. Chernivtsi National University- Kotsyubyns’ky - Chernivtsi, Ukraine , Lukanova, Svitlana M. Chernivtsi National University- Kotsyubyns’ky - Chernivtsi, Ukraine , Logush, Lesya G. Chernivtsi National University- Kotsyubyns’ky - Chernivtsi, Ukraine , Biryuk, Igor G. Bukovyna State Medical University - Teatral´na - Chernivtsi, Ukraine , Sykyryts´ka, Tetyana B. Bukovyna State Medical University - Teatral´na - Chernivtsi, Ukraine , Boychuk, Oleg M. Bukovyna State Medical University - Teatral´na - Chernivtsi, Ukraine , de Oliveira, Sílvio C. Universidade Federal de Mato Grosso do Sul - Campo Grande - MS, Brazil , Ojani, Reza University of Mazandaran - Air Force Road - Babolsar, Islamic Republic of Iran
Abstract :
The possibility of daclatasvir electrochemical detection, assisted by conducting polymer-based sulfoacid, was analyzed by theoretical point of view. It was shown, that the conducting polymer sulfoacid may serve as an excellent electrode modifier, permitting the use of more flexible pH-window for analysis. The steady-state may be maintained stable in the vast parameter region. The electroanalytical response has to be clear and easy to interpret. The possibility for electrochemical instabilities (electrochemical oscillations and monotonic instability) in this system has also been studied.
Keywords :
Daclatasvir , conducting polymer , Electrochemical detection , Electrochemical sensing , Stable steady-state
