Standard

TM-Free and TM-Catalyzed Mechanosynthesis of Functional Polymers. / Al-Ithawi, Wahab; Khasanov, Albert; Kovalev, Igor и др.
в: Polymers, Том 15, № 8, 1853, 2023.

Результаты исследований: Вклад в журналОбзорная статьяРецензирование

Harvard

Al-Ithawi, W, Khasanov, A, Kovalev, I, Nikonov, I, Platonov, V, Kopchuk, D, Santra, S, Zyryanov, G & Ranu, B 2023, 'TM-Free and TM-Catalyzed Mechanosynthesis of Functional Polymers', Polymers, Том. 15, № 8, 1853. https://doi.org/10.3390/polym15081853

APA

Al-Ithawi, W., Khasanov, A., Kovalev, I., Nikonov, I., Platonov, V., Kopchuk, D., Santra, S., Zyryanov, G., & Ranu, B. (2023). TM-Free and TM-Catalyzed Mechanosynthesis of Functional Polymers. Polymers, 15(8), [1853]. https://doi.org/10.3390/polym15081853

Vancouver

Al-Ithawi W, Khasanov A, Kovalev I, Nikonov I, Platonov V, Kopchuk D и др. TM-Free and TM-Catalyzed Mechanosynthesis of Functional Polymers. Polymers. 2023;15(8):1853. doi: 10.3390/polym15081853

Author

Al-Ithawi, Wahab ; Khasanov, Albert ; Kovalev, Igor и др. / TM-Free and TM-Catalyzed Mechanosynthesis of Functional Polymers. в: Polymers. 2023 ; Том 15, № 8.

BibTeX

@article{63f58a1d2fd647cf8304ff36ecb09585,
title = "TM-Free and TM-Catalyzed Mechanosynthesis of Functional Polymers",
abstract = "Highlights: The most representative examples for the TM-free and TM-catalyzed mechano-synthesis of functional polymers are reported; The most common applications for the various types of functional polymers are precented; The advantage of solvent-free mechanosynthesis over conventional solvent-based synthesis are highlighted; In many cases the better performance of the mechanchemically-prepared polymers over those obtained by using conventional methods are demonstrated. Mechanochemically induced methods are commonly used for the depolymerization of polymers, including plastic and agricultural wastes. So far, these methods have rarely been used for polymer synthesis. Compared to conventional polymerization in solutions, mechanochemical polymerization offers numerous advantages such as less or no solvent consumption, the accessibility of novel structures, the inclusion of co-polymers and post-modified polymers, and, most importantly, the avoidance of problems posed by low monomer/oligomer solubility and fast precipitation during polymerization. Consequently, the development of new functional polymers and materials, including those based on mechanochemically synthesized polymers, has drawn much interest, particularly from the perspective of green chemistry. In this review, we tried to highlight the most representative examples of transition-metal (TM)-free and TM-catalyzed mechanosynthesis of some functional polymers, such as semiconductive polymers, porous polymeric materials, sensory materials, materials for photovoltaics, etc. {\textcopyright} 2023 by the authors.",
author = "Wahab Al-Ithawi and Albert Khasanov and Igor Kovalev and Igor Nikonov and Vadim Platonov and Dmitry Kopchuk and Sougata Santra and Grigory Zyryanov and Brindaban Ranu",
note = "This research was funded by the Council for Grants of the President of the Russian Federation, Grant # NSh-1223.2022.1.3 (for the Section 2.3), Ministry of Science and Higher Education of the Russian Federation, Reference # 075-15-2022-1118, dated 29 June 2022 (all other sections).",
year = "2023",
doi = "10.3390/polym15081853",
language = "English",
volume = "15",
journal = "Polymers",
issn = "2073-4360",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "8",

}

RIS

TY - JOUR

T1 - TM-Free and TM-Catalyzed Mechanosynthesis of Functional Polymers

AU - Al-Ithawi, Wahab

AU - Khasanov, Albert

AU - Kovalev, Igor

AU - Nikonov, Igor

AU - Platonov, Vadim

AU - Kopchuk, Dmitry

AU - Santra, Sougata

AU - Zyryanov, Grigory

AU - Ranu, Brindaban

N1 - This research was funded by the Council for Grants of the President of the Russian Federation, Grant # NSh-1223.2022.1.3 (for the Section 2.3), Ministry of Science and Higher Education of the Russian Federation, Reference # 075-15-2022-1118, dated 29 June 2022 (all other sections).

PY - 2023

Y1 - 2023

N2 - Highlights: The most representative examples for the TM-free and TM-catalyzed mechano-synthesis of functional polymers are reported; The most common applications for the various types of functional polymers are precented; The advantage of solvent-free mechanosynthesis over conventional solvent-based synthesis are highlighted; In many cases the better performance of the mechanchemically-prepared polymers over those obtained by using conventional methods are demonstrated. Mechanochemically induced methods are commonly used for the depolymerization of polymers, including plastic and agricultural wastes. So far, these methods have rarely been used for polymer synthesis. Compared to conventional polymerization in solutions, mechanochemical polymerization offers numerous advantages such as less or no solvent consumption, the accessibility of novel structures, the inclusion of co-polymers and post-modified polymers, and, most importantly, the avoidance of problems posed by low monomer/oligomer solubility and fast precipitation during polymerization. Consequently, the development of new functional polymers and materials, including those based on mechanochemically synthesized polymers, has drawn much interest, particularly from the perspective of green chemistry. In this review, we tried to highlight the most representative examples of transition-metal (TM)-free and TM-catalyzed mechanosynthesis of some functional polymers, such as semiconductive polymers, porous polymeric materials, sensory materials, materials for photovoltaics, etc. © 2023 by the authors.

AB - Highlights: The most representative examples for the TM-free and TM-catalyzed mechano-synthesis of functional polymers are reported; The most common applications for the various types of functional polymers are precented; The advantage of solvent-free mechanosynthesis over conventional solvent-based synthesis are highlighted; In many cases the better performance of the mechanchemically-prepared polymers over those obtained by using conventional methods are demonstrated. Mechanochemically induced methods are commonly used for the depolymerization of polymers, including plastic and agricultural wastes. So far, these methods have rarely been used for polymer synthesis. Compared to conventional polymerization in solutions, mechanochemical polymerization offers numerous advantages such as less or no solvent consumption, the accessibility of novel structures, the inclusion of co-polymers and post-modified polymers, and, most importantly, the avoidance of problems posed by low monomer/oligomer solubility and fast precipitation during polymerization. Consequently, the development of new functional polymers and materials, including those based on mechanochemically synthesized polymers, has drawn much interest, particularly from the perspective of green chemistry. In this review, we tried to highlight the most representative examples of transition-metal (TM)-free and TM-catalyzed mechanosynthesis of some functional polymers, such as semiconductive polymers, porous polymeric materials, sensory materials, materials for photovoltaics, etc. © 2023 by the authors.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=85154050862

UR - https://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcAuth=tsmetrics&SrcApp=tsm_test&DestApp=WOS_CPL&DestLinkType=FullRecord&KeyUT=000979078500001

U2 - 10.3390/polym15081853

DO - 10.3390/polym15081853

M3 - Review article

VL - 15

JO - Polymers

JF - Polymers

SN - 2073-4360

IS - 8

M1 - 1853

ER -

ID: 38493234