Abstract:
The spread of microplastics is a serious environmental problem, which attracts increasing attention. The achievements of analytical chemistry made it possible to accumulate and systematize an extensive array of data on the contents of microplastics in environmental objects and living (micro)organisms. The current situation brings about the challenge to, at least, isolate microplastics from the environmental objects and, at most, efficiently decompose them. This review systematizes data on the existing (bio)catalytic methods and approaches that can be used for the decomposition of various microplastics. The benefits and drawbacks of the methods are demonstrated. Possible solutions to the existing problems related to the microplastic pollution of the environment are critically discussed, and areas for further development are outlined.
The bibliography includes 273 references.
Citation:
E. N. Efremenko, I. V. Lyagin, O. V. Maslova, O. V. Senko, N. A. Stepanov, A. G. Aslanli, “Catalytic degradation of microplastics”, Usp. Khim., 92:2 (2023), RCR5069; Russian Chem. Reviews, 92:2 (2023), RCR5069
Linking options:
https://www.mathnet.ru/eng/rcr4415
https://doi.org/10.57634/RCR5069
This publication is cited in the following 14 articles:
Olga V. Maslova, Olga V. Senko, Nikolay N. Stepanov, Ilya V. Lyagin, Elena N. Efremenko, Lomonosov chemistry journal, 65:№2, 2024 (2024), 161
Elena Efremenko, Nikolay Stepanov, Olga Senko, Aysel Aslanli, Olga Maslova, Ilya Lyagin, Microorganisms, 12:3 (2024), 470
O. V. Maslova, O. V. Senko, N. A. Stepanov, I. V. Lyagin, E. N. Efremenko, Moscow Univ. Chem. Bull., 79:2 (2024), 140
M. S. Ermolin, J Anal Chem, 79:5 (2024), 500
Olga Senko, Olga Maslova, Nikolay Stepanov, Aysel Aslanli, Ilya Lyagin, Elena Efremenko, Microorganisms, 12:10 (2024), 2024
Ilya V. Lyagin, Olga V. Maslova, Olga V. Senko, Nikolay A. Stepanov, Elena N. Efremenko, jour, 8:3 (2024), 256
Alexey R. Rednikin, Yulia A. Frank, Artem O. Rozhin, Danil S. Vorobiev, Rawil F. Fakhrullin, Atmosphere, 15:11 (2024), 1380
S. D. Varfolomeev, V. Švedas, E. N. Efremenko, A. M. Egorov, M. G. Khrenova, V. I. Tishkov, D. L. Atroshenko, A. A. Pometun, S. S. Savin, N. N. Ugarova, G. Yu. Lomakina, I. V. Gachok, I. V. Lyagin, V. I. Muronetz, A. P. Sinitsyn, O. A. Sinitsyna, A. M. Rojhkova, G. F. Makhaeva, S. O. Bachurin, O. I. Lavrik, D. O. Zharkov, A. V. Yudkina, O. M. Panasenko, A. A. Baykov, P. Masson, T. N. Pashirova, Z. M. Shaihutdinova, E. V. Popova, V. E. Tikhomirova, O. A. Kost, E. V. Kudryashova, N. V. Dobryakova, N. L. Klyachko, M. M. Veselov, A. V. Lopukhov, I. M. Le-Deygen, A. D. Usvaliev, I. V. Chudosai, N. L. Eremeev, M. E. Zvereva, M. Yu. Rubtsova, M. M. Ulyashova, G. V. Presnova, L. V. Sigolaeva, D. V. Pergushov, I. N. Kurochkin, E. G. Evtushenko, I. A. Boginskaya, Yu. Yu. Zvyagina, E. A. Slipchenko, O. V. Kryukova, M. V. Sedova, I. A. Ryzhikov, V. V. Shumyantseva, P. I. Koroleva, T. V. Bulko, L. E. Agafonova, R. A. Masamrekh, T. A. Filippova, A. V. Kuzikov, A. P. Savitsky, M. O. Shleeva, I. , Russian Chem. Reviews, 93:12 (2024), 1–55
M. S. Ermolin, Zhurnal Analiticheskoi Khimii, 79:5 (2024), 440
M. Zandieh, E. Griffiths, A. Waldie, Shuhuan Li, J. Honek, F. Rezanezhad, P. Van Cappellen, Juewen Liu, Exploration, 4:3 (2023), 20230018
O. Maslova, O. Senko, M. A. Gladchenko, S. N. Gaydamaka, E. Efremenko, Applied Sciences, 13:9 (2023), 5815
I. Lyagin, A. Aslanli, M. Domnin, N. Stepanov, O. Senko, O. Maslova, E. Efremenko, International Journal of Molecular Sciences, 24:14 (2023), 11359
E. Efremenko, N. Stepanov, O. Senko, O. Maslova, I. Lyagin, A. Aslanli, Life, 13:3 (2023), 841
E. Efremenko, O. Senko, N. Stepanov, A. Aslanli, O. Maslova, I. Lyagin, Microorganisms, 11:6 (2023), 1395
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