Publikation:

A π‐Conjugated, Covalent Phosphinine Framework

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Datum

2019

Autor:innen

Huang, Jieyang
Tarábek, Ján
Kulkarni, Ranjit
Dračínský, Martin
Smales, Glen J.
Tian, Yu
Ren, Shijie
Pauw, Brian R.
Bojdys, Michael J.
et al.

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http://nbn-resolving.de/urn:nbn:de:bsz:352-2-1kwojjpb7b6m35
DOI (zitierfähiger Link)
https://doi.org/10.1002/chem.201900281
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CC BY-NC 4.0

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Open Access-Veröffentlichung
Open Access Hybrid

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Chemie: Publikationen
Core Facility der Universität Konstanz

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Published

Erschienen in

Chemistry – A European Journal. Wiley. 2019, 25(53), S. 12342-12348. ISSN 0947-6539. eISSN 1521-3765. Verfügbar unter: doi: 10.1002/chem.201900281

Zusammenfassung

Structural modularity of polymer frameworks is a key advantage of covalent organic polymers, however, only C, N, O, Si, and S have found their way into their building blocks so far. Here, the toolbox available to polymer and materials chemists is expanded by one additional nonmetal, phosphorus. Starting with a building block that contains a λ5‐phosphinine (C5P) moiety, a number of polymerization protocols are evaluated, finally obtaining a π‐conjugated, covalent phosphinine‐based framework (CPF‐1) through Suzuki–Miyaura coupling. CPF‐1 is a weakly porous polymer glass (72.4 m2 g−1 BET at 77 K) with green fluorescence ( λmax=546 nm) and extremely high thermal stability. The polymer catalyzes hydrogen evolution from water under UV and visible light irradiation without the need for additional co‐catalyst at a rate of 33.3 μmol h−1 g−1. These results demonstrate for the first time the incorporation of the phosphinine motif into a complex polymer framework. Phosphinine‐based frameworks show promising electronic and optical properties, which might spark future interest in their applications in light‐emitting devices and heterogeneous catalysis.

Zusammenfassung in einer weiteren Sprache

Fachgebiet (DDC)
540 Chemie

Schlagwörter

fluorescence, phosphinine, polymers, Suzuki–Miyaura coupling, p-conjugated frameworks

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ISO 690HUANG, Jieyang, Ján TARÁBEK, Ranjit KULKARNI, Cui WANG, Martin DRAČÍNSKÝ, Glen J. SMALES, Yu TIAN, Shijie REN, Brian R. PAUW, Michael J. BOJDYS, 2019. A π‐Conjugated, Covalent Phosphinine Framework. In: Chemistry – A European Journal. Wiley. 2019, 25(53), S. 12342-12348. ISSN 0947-6539. eISSN 1521-3765. Verfügbar unter: doi: 10.1002/chem.201900281
BibTex
@article{Huang2019-09-20Conju-75180,
  title={A π‐Conjugated, Covalent Phosphinine Framework},
  year={2019},
  doi={10.1002/chem.201900281},
  number={53},
  volume={25},
  issn={0947-6539},
  journal={Chemistry – A European Journal},
  pages={12342--12348},
  author={Huang, Jieyang and Tarábek, Ján and Kulkarni, Ranjit and Wang, Cui and Dračínský, Martin and Smales, Glen J. and Tian, Yu and Ren, Shijie and Pauw, Brian R. and Bojdys, Michael J.}
}
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    <dcterms:abstract>Structural modularity of polymer frameworks is a key advantage of covalent organic polymers, however, only C, N, O, Si, and S have found their way into their building blocks so far. Here, the toolbox available to polymer and materials chemists is expanded by one additional nonmetal, phosphorus. Starting with a building block that contains a λ&lt;sup&gt;5&lt;/sup&gt;‐phosphinine (C&lt;sub&gt;5&lt;/sub&gt;P) moiety, a number of polymerization protocols are evaluated, finally obtaining a π‐conjugated, covalent phosphinine‐based framework (CPF‐1) through Suzuki–Miyaura coupling. CPF‐1 is a weakly porous polymer glass (72.4 m&lt;sup&gt;2&lt;/sup&gt; g&lt;sup&gt;−1&lt;/sup&gt; BET at 77 K) with green fluorescence ( λ&lt;sub&gt;max&lt;/sub&gt;=546 nm) and extremely high thermal stability. The polymer catalyzes hydrogen evolution from water under UV and visible light irradiation without the need for additional co‐catalyst at a rate of 33.3 μmol h&lt;sup&gt;−1&lt;/sup&gt; g&lt;sup&gt;−1&lt;/sup&gt;. These results demonstrate for the first time the incorporation of the phosphinine motif into a complex polymer framework. Phosphinine‐based frameworks show promising electronic and optical properties, which might spark future interest in their applications in light‐emitting devices and heterogeneous catalysis.</dcterms:abstract>
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