Annulated 1,3,4‐Azadiphospholides: Heterocycles with Widely Tunable Optical Properties

Phosphorus heterocycles find applications in the synthesis of π‐conjugated compounds and as precursors for optoelectronic materials such as organic light‐emitting diodes (OLEDs), electronic switches, and transistors. A high‐yield, one‐pot synthesis of anionic annulated 1,3,4‐azadiphospholides from N...

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Veröffentlicht in:	Angewandte Chemie 2017-09, Vol.129 (37), p.11378-11383
Hauptverfasser:	Suter, Riccardo, Benkő, Zoltán, Bispinghoff, Mark, Grützmacher, Hansjörg
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorption Chemistry Chromophore Diodes Fluorides Heterocyclen Light emitting diodes Low concentrations Metals Optical properties Optoelectronics Organic light emitting diodes Phosphole Phosphor Phosphorus Semiconductor devices Substrates Switches Synthesis Transistors Transition metals UV/Vis-Absorption
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creator	Suter, Riccardo Benkő, Zoltán Bispinghoff, Mark Grützmacher, Hansjörg
description	Phosphorus heterocycles find applications in the synthesis of π‐conjugated compounds and as precursors for optoelectronic materials such as organic light‐emitting diodes (OLEDs), electronic switches, and transistors. A high‐yield, one‐pot synthesis of anionic annulated 1,3,4‐azadiphospholides from Na(OCP) and 2‐chloropyridines is presented. The synthesis proceeds without the use of transition metals and tolerates a wide range of substrates. Cyano‐substituted compounds are especially deeply colored and have absorption maxima which range from λmax=525 to 596 nm. The optical properties are dominated by the spatial separation of an electron acceptor and donor unit within one molecule (push–pull chromophore). The anionic 1,3,4‐azadiphospholides are silylated to neutral siloxy compounds with a strong blue‐shifted absorption. This reaction can be reversed by addition of fluoride ions, which allows fluoride ions to be detected in optically low concentrations. Farbenspiel: Eine ergiebige Eintopfsynthese von benzanellierten 1,3,4‐Azadiphospholiden wurde entwickelt. Diese neuen Heterocyclen haben einstellbare optische Eigenschaften, die eine Verwendung als chemische Fluoridsensoren ermöglichen.
doi_str_mv	10.1002/ange.201705473
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A high‐yield, one‐pot synthesis of anionic annulated 1,3,4‐azadiphospholides from Na(OCP) and 2‐chloropyridines is presented. The synthesis proceeds without the use of transition metals and tolerates a wide range of substrates. Cyano‐substituted compounds are especially deeply colored and have absorption maxima which range from λmax=525 to 596 nm. The optical properties are dominated by the spatial separation of an electron acceptor and donor unit within one molecule (push–pull chromophore). The anionic 1,3,4‐azadiphospholides are silylated to neutral siloxy compounds with a strong blue‐shifted absorption. This reaction can be reversed by addition of fluoride ions, which allows fluoride ions to be detected in optically low concentrations. Farbenspiel: Eine ergiebige Eintopfsynthese von benzanellierten 1,3,4‐Azadiphospholiden wurde entwickelt. Diese neuen Heterocyclen haben einstellbare optische Eigenschaften, die eine Verwendung als chemische Fluoridsensoren ermöglichen.</description><identifier>ISSN: 0044-8249</identifier><identifier>EISSN: 1521-3757</identifier><identifier>DOI: 10.1002/ange.201705473</identifier><language>eng</language><publisher>Weinheim: Wiley Subscription Services, Inc</publisher><subject>Absorption ; Chemistry ; Chromophore ; Diodes ; Fluorides ; Heterocyclen ; Light emitting diodes ; Low concentrations ; Metals ; Optical properties ; Optoelectronics ; Organic light emitting diodes ; Phosphole ; Phosphor ; Phosphorus ; Semiconductor devices ; Substrates ; Switches ; Synthesis ; Transistors ; Transition metals ; UV/Vis-Absorption</subject><ispartof>Angewandte Chemie, 2017-09, Vol.129 (37), p.11378-11383</ispartof><rights>2017 Wiley‐VCH Verlag GmbH & Co. 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A high‐yield, one‐pot synthesis of anionic annulated 1,3,4‐azadiphospholides from Na(OCP) and 2‐chloropyridines is presented. The synthesis proceeds without the use of transition metals and tolerates a wide range of substrates. Cyano‐substituted compounds are especially deeply colored and have absorption maxima which range from λmax=525 to 596 nm. The optical properties are dominated by the spatial separation of an electron acceptor and donor unit within one molecule (push–pull chromophore). The anionic 1,3,4‐azadiphospholides are silylated to neutral siloxy compounds with a strong blue‐shifted absorption. This reaction can be reversed by addition of fluoride ions, which allows fluoride ions to be detected in optically low concentrations. Farbenspiel: Eine ergiebige Eintopfsynthese von benzanellierten 1,3,4‐Azadiphospholiden wurde entwickelt. 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A high‐yield, one‐pot synthesis of anionic annulated 1,3,4‐azadiphospholides from Na(OCP) and 2‐chloropyridines is presented. The synthesis proceeds without the use of transition metals and tolerates a wide range of substrates. Cyano‐substituted compounds are especially deeply colored and have absorption maxima which range from λmax=525 to 596 nm. The optical properties are dominated by the spatial separation of an electron acceptor and donor unit within one molecule (push–pull chromophore). The anionic 1,3,4‐azadiphospholides are silylated to neutral siloxy compounds with a strong blue‐shifted absorption. This reaction can be reversed by addition of fluoride ions, which allows fluoride ions to be detected in optically low concentrations. Farbenspiel: Eine ergiebige Eintopfsynthese von benzanellierten 1,3,4‐Azadiphospholiden wurde entwickelt. 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subjects	Absorption Chemistry Chromophore Diodes Fluorides Heterocyclen Light emitting diodes Low concentrations Metals Optical properties Optoelectronics Organic light emitting diodes Phosphole Phosphor Phosphorus Semiconductor devices Substrates Switches Synthesis Transistors Transition metals UV/Vis-Absorption
title	Annulated 1,3,4‐Azadiphospholides: Heterocycles with Widely Tunable Optical Properties
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