Use of silylmethoxy groups as inducers of efficient room temperature phosphorescence from precious-metal-free organic luminophores

We designed and characterized 1,4-diaroyl-2,5-bis(silylmethoxy)benzenes as precious-metal-free organic luminophores that efficiently phosphoresce at room temperature. The benzene derivatives in crystals emit green phosphorescence with quantum yields up to 0.45 under ambient conditions. The luminesce...

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Veröffentlicht in:	Materials chemistry frontiers 2018, Vol.2 (2), p.347-354
Hauptverfasser:	Shimizu, Masaki, Kinoshita, Takumi, Shigitani, Ryosuke, Miyake, Yusuke, Tajima, Kunihiko
Format:	Artikel
Sprache:	eng
Schlagworte:	Benzene Derivatives Electron paramagnetic resonance Electron spin Fluorescence Hydrocarbons Hydrogen bonding Luminescence Naphthalene Phosphorescence Polymethyl methacrylate Room temperature Spin resonance Toluene
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creator	Shimizu, Masaki Kinoshita, Takumi Shigitani, Ryosuke Miyake, Yusuke Tajima, Kunihiko
description	We designed and characterized 1,4-diaroyl-2,5-bis(silylmethoxy)benzenes as precious-metal-free organic luminophores that efficiently phosphoresce at room temperature. The benzene derivatives in crystals emit green phosphorescence with quantum yields up to 0.45 under ambient conditions. The luminescence quantum yield increases with increasing number of intermolecular interactions in the crystal, such as hydrogen bonding and CH–π interactions. The luminescence lifetimes are inversely proportional to temperature over the −80 to 80 °C range, demonstrating the potential of the benzene derivatives as materials for temperature sensing. Poly(methyl methacrylate) films doped with these luminophores also exhibit intense green phosphorescence at room temperature under vacuum, while they emit very faint blue fluorescence under ambient conditions. Electron spin resonance spectroscopy of a UV-excited diphenylmethylsilyl-derivative in toluene at 77 K reveals a triplet diradical species, whose electronic distribution is similar to that of naphthalene, indicating that the triplet diradical is distributed over almost ten atoms.
doi_str_mv	10.1039/C7QM00524E
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The benzene derivatives in crystals emit green phosphorescence with quantum yields up to 0.45 under ambient conditions. The luminescence quantum yield increases with increasing number of intermolecular interactions in the crystal, such as hydrogen bonding and CH–π interactions. The luminescence lifetimes are inversely proportional to temperature over the −80 to 80 °C range, demonstrating the potential of the benzene derivatives as materials for temperature sensing. Poly(methyl methacrylate) films doped with these luminophores also exhibit intense green phosphorescence at room temperature under vacuum, while they emit very faint blue fluorescence under ambient conditions. Electron spin resonance spectroscopy of a UV-excited diphenylmethylsilyl-derivative in toluene at 77 K reveals a triplet diradical species, whose electronic distribution is similar to that of naphthalene, indicating that the triplet diradical is distributed over almost ten atoms.</abstract><cop>London</cop><pub>Royal Society of Chemistry</pub><doi>10.1039/C7QM00524E</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0002-3267-4902</orcidid></addata></record>
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subjects	Benzene Derivatives Electron paramagnetic resonance Electron spin Fluorescence Hydrocarbons Hydrogen bonding Luminescence Naphthalene Phosphorescence Polymethyl methacrylate Room temperature Spin resonance Toluene
title	Use of silylmethoxy groups as inducers of efficient room temperature phosphorescence from precious-metal-free organic luminophores
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