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N-hydroxyphthalimide and its derivatives for laccase-catalyzed oxidative degradation of Indigo Carmine

Green chemistry
4th International Scientific Conference «Chemical Technology and Engineering»: Proceedings – June 26–29th, 2023, Lviv, Ukraine – Lviv: Lviv Polytechnic National University, 2023, pp. 196–199

DOI: https://doi.org/10.23939/cte2023.196

Authors

First and Last Name Academic degree E-mail Affiliation
Olga Kushch Sc.D. kusch.o [at] donnu.edu.ua L.M. Litvinenko Institute of Physico-Organic Chemistry and Coal Chemistry
Vinnytsia, Ukraine
Vasyl’ Stus Donetsk National University
Vinnytsia, Ukraine
Iryna Hordieieva Ph.D. i.Hordieeva [at] donnu.edu.ua L.M. Litvinenko Institute of Physico-Organic Chemistry and Coal Chemistry
Kyiv, Ukraine
Tetiana Hordieieva No t.hordieieva [at] donnu.edu.ua Vasyl’ Stus Donetsk National University
Vinnytsia, Ukraine
Mykhailo Kompanets Ph.D. m.kompanets81 [at] gmail.com L.M. Litvinenko Institute of Physico-Organic Chemistry and Coal Chemistry
Kyiv, Ukraine
Alexander Shendrik Sc.D. o.shendrik [at] donnu.edu.ua Vasyl’ Stus Donetsk National University
Vinnytsia, Ukraine

I and my co-authors (if any) authorize the use of the Paper in accordance with the Creative Commons CC BY license

First published on this website: 18.04.2023 - 23:09
Abstract

A comparative study of N-hydroxyphthalimide and its derivatives as redox mediators of Indigo Carmine oxidative degradation catalyzed by laccase Trametes versicolor was conducted. The experimental results show that the efficiency of mediators is increased in the order: N, N‑dihydroxypyromellitimide < 4-Cl-N-hydroxyphthalimide < N-hydroxyphthalimide < 4-CH3O-N-hydroxyphthalimide.

Keywords
decolorizationIndigo CarmineN-hydroxyphthalimidelaccase Trametes versicolormediatoroxidationradical
References

[1] Patel, A., Patel, V., Patel, R., Trivedi, U., & Patel, K. (2020). Fungal laccases: Versatile Green Catalyst for bioremediation of organopollutants. Emerging Technologies in Environmental Bioremediation, 85–129. https://doi.org/10.1016/b978-0-12-819860- 5.00004-3

[2] Piontek, K., Antorini, M., & Choinowski, T. (2002). Crystal structure of a laccase from the fungusTrametes versicolor at 1.90-Å resolution containing a full complement of coppers. Journal of Biological Chemistry, 277(40), 37663-37669. https://doi.org/10.1074/jbc.M204571200

[3] Tišma, M., Žnidaršič-Plazl, P., Šelo, G., Tolj, I., Šperanda, M., Bucić-Kojić, A., & Planinić, M. (2021). Trametes versicolor in lignocellulose-based bioeconomy: State of the art, challenges and opportunities. Bioresource Technology, 330, 124997. https://doi.org/10.1016/j.biortech.2021.124997

[4] Xu, F., Kulys, J. J., Duke, K., Li, K., Krikstopaitis, K., Deussen, H.-J. W., Abbate, E., Galinyte, V., & Schneider, P. (2000). Redox chemistry in laccase-catalyzed oxidation of Nhydroxy compounds. Applied and Environmental Microbiology, 66(5), 2052–2056. https://doi.org/10.1128/aem.66.5.2052-2056.2000

[5] Kushch, O. V., O., I., Hordieieva, Zosenko, O. O., & Shendrik, A. N. (2019). Comparison of n‐hydroxy compounds as mediators in laccase‐catalysed decolorization of Indigo Carmine. ChemistrySelect, 4(13), 3905–3913. https://doi.org/10.1002/slct.201803811

[6] Zosenko, O. O., Kushch, O. V., Kompanets, M. O., Anishchenko, V. M., & Shendrik, A. N. (2022). Aliphatic oxime 3-(hydroxyimino)pentan-2,4-dione as new potential mediator for laccase-catalyzed decolorization of Dyes. Journal of Environmental Chemical Engineering, 10(4), 108149. https://doi.org/10.1016/j.jece.2022.108149

[7] Opeida, I. A., Litvinov, Yu. E., Kushch, O. V., Kompanets, M. A., Shendrik, A. N., Matvienko, A. G., & Novokhatko, A. A. (2016). Rate constants and isotope effects for the reaction of H-atom abstraction from rh substrates by Pino Radicals. Russian Journal of Physical Chemistry A, 90(11), 2142–2149. https://doi.org/10.1134/s0036024416110194

[8] Andrade, M. A., & Martins, L. M. (2021). Organocatalysis meets hydrocarbon oxyfunctionalization: The role of n ‐hydroxyimides. European Journal of Organic Chemistry, 2021(33), 4715–4727. https://doi.org/10.1002/ejoc.202100479

[9] Kushch, O. V., Hordieieva, I. O., Kompanets, M. O., Zosenko, O. O., Opeida, I. A., & Shendrik, A. N. (2021). Hydrogen atom transfer from benzyl alcohols to n-oxyl radicals. reactivity parameters. The Journal of Organic Chemistry, 86(5), 3792–3799. https://doi.org/10.1021/acs.joc.0c02595

[10] Gorgy, K., Lepretre, J.-C., Saint-Aman, E., Einhorn, C., Einhorn, J., Marcadal, C., & Pierre, J.-L. (1998). Electrocatalytic oxidation of alcohols using substituted n-hydroxyphthalimides as catalysts. Electrochimica Acta, 44(2–3), 385–393. https://doi.org/10.1016/s0013- 4686(97)10189-x

[11] Kushch, O., Hordieieva, I., Novikova, K., Litvinov, Y., Kompanets, M., Shendrik, A., & Opeida, I. (2020). Kinetics of n-oxyl radicals’ decay. The Journal of Organic Chemistry, 85(11), 7112–7124. https://doi.org/10.1021/acs.joc.0c00506

First published Full Text (18.04.2023 - 23:09)
Official paper

Comments

oleksandr.ivashchuk
oleksandr.ivashchuk's picture
administrator, reviewer, secretary

Dear authors, please edit your submission - format all the literature on the references list according to APA style: https://www.mtroyal.ca/library/files/citation/apa.pdf
Add all co-authors to the references.

Please add a new version after edition in the comments.

Wed, 04/19/2023 - 09:48
oleksandr.ivashchuk
oleksandr.ivashchuk's picture
administrator, reviewer, secretary

Sent by authors via email

Mon, 05/15/2023 - 13:28