A. Nosal-Wiercińska Et Al. , "Kinetics and Mechanism of In(III) Ions Electroreduction on Cyclically Renewable Liquid Silver Amalgam Film Electrode: Significance of the Active Complexes of In(III)—Acetazolamide," Molecules , vol.28, no.7, 2023
Nosal-Wiercińska, A. Et Al. 2023. Kinetics and Mechanism of In(III) Ions Electroreduction on Cyclically Renewable Liquid Silver Amalgam Film Electrode: Significance of the Active Complexes of In(III)—Acetazolamide. Molecules , vol.28, no.7 .
Nosal-Wiercińska, A., Martyna, M., Pawlak, A., Bazan-Woźniak, A., Pietrzak, R., YILMAZ, S., ... Yağmur Kabaş, S.(2023). Kinetics and Mechanism of In(III) Ions Electroreduction on Cyclically Renewable Liquid Silver Amalgam Film Electrode: Significance of the Active Complexes of In(III)—Acetazolamide. Molecules , vol.28, no.7.
Nosal-Wiercińska, Agnieszka Et Al. "Kinetics and Mechanism of In(III) Ions Electroreduction on Cyclically Renewable Liquid Silver Amalgam Film Electrode: Significance of the Active Complexes of In(III)—Acetazolamide," Molecules , vol.28, no.7, 2023
Nosal-Wiercińska, Agnieszka Et Al. "Kinetics and Mechanism of In(III) Ions Electroreduction on Cyclically Renewable Liquid Silver Amalgam Film Electrode: Significance of the Active Complexes of In(III)—Acetazolamide." Molecules , vol.28, no.7, 2023
Nosal-Wiercińska, A. Et Al. (2023) . "Kinetics and Mechanism of In(III) Ions Electroreduction on Cyclically Renewable Liquid Silver Amalgam Film Electrode: Significance of the Active Complexes of In(III)—Acetazolamide." Molecules , vol.28, no.7.
@article{article, author={Agnieszka Nosal-Wiercińska Et Al. }, title={Kinetics and Mechanism of In(III) Ions Electroreduction on Cyclically Renewable Liquid Silver Amalgam Film Electrode: Significance of the Active Complexes of In(III)—Acetazolamide}, journal={Molecules}, year=2023}