White Willow Bark Extract as a Copper Corrosion Inhibitor

Zdravković, Milica; Grekulović, Vesna; Štrbac, Nada; Huseinović, Edina; Gorgievski, Milan; Marković, Miljan; Božinović, Kristina

doi:10.15255/KUI.2025.039

Kemija u industriji : Časopis kemičara i kemijskih inženjera Hrvatske, Vol. 75 No. 3-4 (special issue), 2026.

Izvorni znanstveni članak

https://doi.org/10.15255/KUI.2025.039

White Willow Bark Extract as a Copper Corrosion Inhibitor

Milica Zdravković orcid.org/0000-0001-9488-9151 ; Univerzitet u Beogradu, Tehnički fakultet u Boru, Vojske Jugoslavije 12, Bor, Srbija *
Vesna Grekulović orcid.org/0000-0001-6871-4016 ; University of Belgrade, Technical Faculty in Bor, Vojske Jugoslavije 12, Bor, Serbia
Nada Štrbac ; Univerzitet u Beogradu, Tehnički fakultet u Boru, Vojske Jugoslavije 12, Bor, Srbija
Edina Huseinović ; Univerzitet u Tuzli, Prirodno-matematički fakultet, Univerzitetska 4, 75 000 Tuzla, Bosna i Hercegovina
Milan Gorgievski orcid.org/0000-0002-9899-719X ; Univerzitet u Beogradu, Tehnički fakultet u Boru, Vojske Jugoslavije 12, Bor, Srbija
Miljan Marković orcid.org/0000-0002-4734-1481 ; Univerzitet u Beogradu, Tehnički fakultet u Boru, Vojske Jugoslavije 12, Bor, Srbija
Kristina Božinović orcid.org/0000-0002-9834-448X ; Univerzitet u Beogradu, Tehnički fakultet u Boru, Vojske Jugoslavije 12, Bor, Srbija

* Dopisni autor.

Puni tekst: engleski pdf 1.132 Kb

str. 163-172

preuzimanja: 57

citiraj

APA 6th Edition

Zdravković, M., Grekulović, V., Štrbac, N., Huseinović, E., Gorgievski, M., Marković, M. i Božinović, K. (2026). White Willow Bark Extract as a Copper Corrosion Inhibitor. Kemija u industriji, 75 (3-4 (special issue)), 163-172. https://doi.org/10.15255/KUI.2025.039

MLA 8th Edition

Zdravković, Milica, et al. "White Willow Bark Extract as a Copper Corrosion Inhibitor." Kemija u industriji, vol. 75, br. 3-4 (special issue), 2026, str. 163-172. https://doi.org/10.15255/KUI.2025.039. Citirano 18.05.2026.

Chicago 17th Edition

Zdravković, Milica, Vesna Grekulović, Nada Štrbac, Edina Huseinović, Milan Gorgievski, Miljan Marković i Kristina Božinović. "White Willow Bark Extract as a Copper Corrosion Inhibitor." Kemija u industriji 75, br. 3-4 (special issue) (2026): 163-172. https://doi.org/10.15255/KUI.2025.039

Harvard

Zdravković, M., et al. (2026). 'White Willow Bark Extract as a Copper Corrosion Inhibitor', Kemija u industriji, 75(3-4 (special issue)), str. 163-172. https://doi.org/10.15255/KUI.2025.039

Vancouver

Zdravković M, Grekulović V, Štrbac N, Huseinović E, Gorgievski M, Marković M i sur. White Willow Bark Extract as a Copper Corrosion Inhibitor. Kemija u industriji [Internet]. 2026 [pristupljeno 18.05.2026.];75(3-4 (special issue)):163-172. https://doi.org/10.15255/KUI.2025.039

IEEE

M. Zdravković, et al., "White Willow Bark Extract as a Copper Corrosion Inhibitor", Kemija u industriji, vol.75, br. 3-4 (special issue), str. 163-172, 2026. [Online]. https://doi.org/10.15255/KUI.2025.039

Sažetak

This study investigates white willow bark extract (WWBE) as a potential corrosion inhibitor for Cu-DHP in a 0.5 M NaCl solution, using a non-destructive electrochemical methods, namely electrochemical frequency modulation (EFM), and electrochemical impedance spectroscopy (EIS). Electrolytes consisted of 0.5 M NaCl solutions both with and without the addition of WWBE (0.1–0.5 g l−1). The 0.5 M NaCl solution containing 0.5 g l−1 WWBE, both in the presence and absence of a copper plate, was analysed by ultraviolet-visible spectroscopy (UV-Vis). The experiments were conducted at room temperature. The EFM results indicated that WWBE functioned as a cathodic copper corrosion inhibitor, with the highest inhibition efficiency observed for the 0.5 M NaCl solution containing 0.5 g l−1 WWBE. The EIS results suggested the formation of a protective WWBE inhibitor film. The corrosion process was diffusion-controlled, both with and without the addition of WWBE. Both electrochemical methods demonstrated that WWBE adsorbed onto the copper surface in 0.5 M NaCl solution via physisorption, following the Langmuir adsorption isotherm. The Gibbs free energy values of adsorption were similar for EFM and EIS. The UV-Vis results showed that immersion of copper in an electrolyte containing 0.5 g l−1 WWBE for 24 h led to a change in the absorbance maximum, indicating the formation of a copper–WWBE complex. Overall, the results indicate that WWBE is an effective inhibitor of copper corrosion in chloride conditions. Further research will focus on the identification of compounds and organometallic complexes in WWBE and their individual effects on the corrosion process.