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A multifunctional covalent organic framework with localized radicals for selective ion capture and photocatalysis

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A multifunctional covalent organic framework with localized radicals for selective ion capture and photocatalysis. / Zhao, W.; Sun, L.; Wang, B. et al.
In: Materials Today Chemistry, Vol. 26, 101225, 31.12.2022.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Zhao, W, Sun, L, Wang, B, Yang, L, Kang, X, Ren, G, Fang, X, Bai, T, Deng, W-Q & Liu, C 2022, 'A multifunctional covalent organic framework with localized radicals for selective ion capture and photocatalysis', Materials Today Chemistry, vol. 26, 101225. https://doi.org/10.1016/j.mtchem.2022.101225

APA

Zhao, W., Sun, L., Wang, B., Yang, L., Kang, X., Ren, G., Fang, X., Bai, T., Deng, W.-Q., & Liu, C. (2022). A multifunctional covalent organic framework with localized radicals for selective ion capture and photocatalysis. Materials Today Chemistry, 26, Article 101225. https://doi.org/10.1016/j.mtchem.2022.101225

Vancouver

Zhao W, Sun L, Wang B, Yang L, Kang X, Ren G et al. A multifunctional covalent organic framework with localized radicals for selective ion capture and photocatalysis. Materials Today Chemistry. 2022 Dec 31;26:101225. Epub 2022 Oct 31. doi: 10.1016/j.mtchem.2022.101225

Author

Bibtex

@article{21dfdd8f63d44adbb4db9823bd089646,
title = "A multifunctional covalent organic framework with localized radicals for selective ion capture and photocatalysis",
abstract = "Among various kinds of materials, covalent organic frameworks (COFs) are ideal candidates for targeting desired applications, as their conformations and topological structures can be precisely tuned by selection of appropriate building units and connection modes. Multifunctional COFs with integrated functions hold great promise for solving energy and environmental issues. A multifunctional COF (Por-BFBIm-COF) with dual active sites of imidazole ring and porphyrin was designed in this work. The Por-BFBIm-COF not only possessed the features of COFs such as crystallinity and porosity but also exhibited radical characteristics like high spin density (1.22E19 spin/g at 298 K). Selective ion capture, photocatalytic oxidative amine coupling, and photocatalytic α-terpinene oxidation were used as three model systems to demonstrate the capabilities of the Por-BFBIm-COF. In the presence of oxygen and visible light, the Por-BFBIm-COF exhibited very high activities in photocatalytic reactions with producing superoxide anion radical and singlet oxygen active species, respectively. The rational design of the multifunctional COF offered new insights for developing multifunctional materials in energy and environmental fields. ",
keywords = "COFs, Dual active sites, Localized radical, Photocatalysis, Selective ion capture",
author = "W. Zhao and L. Sun and B. Wang and L. Yang and X. Kang and G. Ren and X. Fang and T. Bai and W.-Q. Deng and C. Liu",
year = "2022",
month = dec,
day = "31",
doi = "10.1016/j.mtchem.2022.101225",
language = "English",
volume = "26",
journal = "Materials Today Chemistry",
issn = "2468-5194",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - A multifunctional covalent organic framework with localized radicals for selective ion capture and photocatalysis

AU - Zhao, W.

AU - Sun, L.

AU - Wang, B.

AU - Yang, L.

AU - Kang, X.

AU - Ren, G.

AU - Fang, X.

AU - Bai, T.

AU - Deng, W.-Q.

AU - Liu, C.

PY - 2022/12/31

Y1 - 2022/12/31

N2 - Among various kinds of materials, covalent organic frameworks (COFs) are ideal candidates for targeting desired applications, as their conformations and topological structures can be precisely tuned by selection of appropriate building units and connection modes. Multifunctional COFs with integrated functions hold great promise for solving energy and environmental issues. A multifunctional COF (Por-BFBIm-COF) with dual active sites of imidazole ring and porphyrin was designed in this work. The Por-BFBIm-COF not only possessed the features of COFs such as crystallinity and porosity but also exhibited radical characteristics like high spin density (1.22E19 spin/g at 298 K). Selective ion capture, photocatalytic oxidative amine coupling, and photocatalytic α-terpinene oxidation were used as three model systems to demonstrate the capabilities of the Por-BFBIm-COF. In the presence of oxygen and visible light, the Por-BFBIm-COF exhibited very high activities in photocatalytic reactions with producing superoxide anion radical and singlet oxygen active species, respectively. The rational design of the multifunctional COF offered new insights for developing multifunctional materials in energy and environmental fields.

AB - Among various kinds of materials, covalent organic frameworks (COFs) are ideal candidates for targeting desired applications, as their conformations and topological structures can be precisely tuned by selection of appropriate building units and connection modes. Multifunctional COFs with integrated functions hold great promise for solving energy and environmental issues. A multifunctional COF (Por-BFBIm-COF) with dual active sites of imidazole ring and porphyrin was designed in this work. The Por-BFBIm-COF not only possessed the features of COFs such as crystallinity and porosity but also exhibited radical characteristics like high spin density (1.22E19 spin/g at 298 K). Selective ion capture, photocatalytic oxidative amine coupling, and photocatalytic α-terpinene oxidation were used as three model systems to demonstrate the capabilities of the Por-BFBIm-COF. In the presence of oxygen and visible light, the Por-BFBIm-COF exhibited very high activities in photocatalytic reactions with producing superoxide anion radical and singlet oxygen active species, respectively. The rational design of the multifunctional COF offered new insights for developing multifunctional materials in energy and environmental fields.

KW - COFs

KW - Dual active sites

KW - Localized radical

KW - Photocatalysis

KW - Selective ion capture

U2 - 10.1016/j.mtchem.2022.101225

DO - 10.1016/j.mtchem.2022.101225

M3 - Journal article

VL - 26

JO - Materials Today Chemistry

JF - Materials Today Chemistry

SN - 2468-5194

M1 - 101225

ER -