Excimer and Red Luminescence Due to Aggregation‐Induced Emission in Naphthalene Based Zinc Phosphonate

The phosphonate Zn(PO3–CH2–C10H7) has been obtained as single crystals and polycrystalline powder by hydrothermal synthesis from the parent acid 1‐naphthylmethylphosphonic acid H2PO3CH2–C10H7. This Zn phosphonate exhibits a unique layered structure (P21/c), built up of single inorganic [ZnPO3C] laye...

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Veröffentlicht in:	European journal of inorganic chemistry 2018-07, Vol.2018 (26), p.3095-3103
Hauptverfasser:	Bloyet, Clarisse, Rueff, Jean‐Michel, Cardin, Julien, Caignaert, Vincent, Doualan, Jean‐Louis, Lohier, Jean‐François, Jaffrès, Paul‐Alain, Raveau, Bernard
Format:	Artikel
Sprache:	eng
Schlagworte:	Agglomeration Aggregation Chemical Sciences Computational Physics Condensed Matter Decay rate Electromagnetism Emission Engineering Sciences Excimers Inorganic chemistry Luminescence Material chemistry Materials Materials Science Micro and nanotechnologies Microelectronics Naphthalene Optical properties Optics Phosphonates Phosphorescence Photonic Physics Single crystals Tetrahedra Zinc
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container_title	European journal of inorganic chemistry
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creator	Bloyet, Clarisse Rueff, Jean‐Michel Cardin, Julien Caignaert, Vincent Doualan, Jean‐Louis Lohier, Jean‐François Jaffrès, Paul‐Alain Raveau, Bernard
description	The phosphonate Zn(PO3–CH2–C10H7) has been obtained as single crystals and polycrystalline powder by hydrothermal synthesis from the parent acid 1‐naphthylmethylphosphonic acid H2PO3CH2–C10H7. This Zn phosphonate exhibits a unique layered structure (P21/c), built up of single inorganic [ZnPO3C] layers stacked with organic bilayers of naphthylmethyl moieties “CH2–C10H7”. The inorganic [ZnPO3C] layers consist of infinite zig‐zag chains of corner‐sharing ZnO4 tetrahedrons running along the b direction and interconnected through PO3C tetrahedrons along c. The luminescence properties of this compound show two features never observed so far in any hybrid matrix containing naphthalene ligand: excimer emission characterized by one band fitted at 403 nm; and red luminescence, at room temperature, characterized by six bands fitted at 588, 611, 629, 667, 689, and 734 nm. Comparison with the structure and luminescence properties of the parent phosphonic acid shows that these exceptional luminescence properties originate from particularly strong π–π interactions, between the close‐packed naphthalene rings with F2F and L‐shaped conformations. The extremely fast decay of red emission (τ ≈ 50 ns) shows that the latter is due to aggregation‐induced emission (AIE), rather than to phosphorescence. The role of the inorganic [ZnPO3C] layers, which enhance the rigidity of the structure and restrict intramolecular motions, is also discussed to explain the appearance of the luminescence properties. The luminescence and structure of a naphthalene based zinc phosphonate Zn(PO3–CH2–C10H7), which displays excimer formation and red emission due to aggregation‐induced emission (AIE), is presented.
doi_str_mv	10.1002/ejic.201800369
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This Zn phosphonate exhibits a unique layered structure (P21/c), built up of single inorganic [ZnPO3C] layers stacked with organic bilayers of naphthylmethyl moieties “CH2–C10H7”. The inorganic [ZnPO3C] layers consist of infinite zig‐zag chains of corner‐sharing ZnO4 tetrahedrons running along the b direction and interconnected through PO3C tetrahedrons along c. The luminescence properties of this compound show two features never observed so far in any hybrid matrix containing naphthalene ligand: excimer emission characterized by one band fitted at 403 nm; and red luminescence, at room temperature, characterized by six bands fitted at 588, 611, 629, 667, 689, and 734 nm. Comparison with the structure and luminescence properties of the parent phosphonic acid shows that these exceptional luminescence properties originate from particularly strong π–π interactions, between the close‐packed naphthalene rings with F2F and L‐shaped conformations. The extremely fast decay of red emission (τ ≈ 50 ns) shows that the latter is due to aggregation‐induced emission (AIE), rather than to phosphorescence. The role of the inorganic [ZnPO3C] layers, which enhance the rigidity of the structure and restrict intramolecular motions, is also discussed to explain the appearance of the luminescence properties. 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This Zn phosphonate exhibits a unique layered structure (P21/c), built up of single inorganic [ZnPO3C] layers stacked with organic bilayers of naphthylmethyl moieties “CH2–C10H7”. The inorganic [ZnPO3C] layers consist of infinite zig‐zag chains of corner‐sharing ZnO4 tetrahedrons running along the b direction and interconnected through PO3C tetrahedrons along c. The luminescence properties of this compound show two features never observed so far in any hybrid matrix containing naphthalene ligand: excimer emission characterized by one band fitted at 403 nm; and red luminescence, at room temperature, characterized by six bands fitted at 588, 611, 629, 667, 689, and 734 nm. Comparison with the structure and luminescence properties of the parent phosphonic acid shows that these exceptional luminescence properties originate from particularly strong π–π interactions, between the close‐packed naphthalene rings with F2F and L‐shaped conformations. The extremely fast decay of red emission (τ ≈ 50 ns) shows that the latter is due to aggregation‐induced emission (AIE), rather than to phosphorescence. The role of the inorganic [ZnPO3C] layers, which enhance the rigidity of the structure and restrict intramolecular motions, is also discussed to explain the appearance of the luminescence properties. 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This Zn phosphonate exhibits a unique layered structure (P21/c), built up of single inorganic [ZnPO3C] layers stacked with organic bilayers of naphthylmethyl moieties “CH2–C10H7”. The inorganic [ZnPO3C] layers consist of infinite zig‐zag chains of corner‐sharing ZnO4 tetrahedrons running along the b direction and interconnected through PO3C tetrahedrons along c. The luminescence properties of this compound show two features never observed so far in any hybrid matrix containing naphthalene ligand: excimer emission characterized by one band fitted at 403 nm; and red luminescence, at room temperature, characterized by six bands fitted at 588, 611, 629, 667, 689, and 734 nm. Comparison with the structure and luminescence properties of the parent phosphonic acid shows that these exceptional luminescence properties originate from particularly strong π–π interactions, between the close‐packed naphthalene rings with F2F and L‐shaped conformations. The extremely fast decay of red emission (τ ≈ 50 ns) shows that the latter is due to aggregation‐induced emission (AIE), rather than to phosphorescence. The role of the inorganic [ZnPO3C] layers, which enhance the rigidity of the structure and restrict intramolecular motions, is also discussed to explain the appearance of the luminescence properties. The luminescence and structure of a naphthalene based zinc phosphonate Zn(PO3–CH2–C10H7), which displays excimer formation and red emission due to aggregation‐induced emission (AIE), is presented.</abstract><cop>Weinheim</cop><pub>Wiley Subscription Services, Inc</pub><doi>10.1002/ejic.201800369</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0003-0372-6491</orcidid><orcidid>https://orcid.org/0000-0002-0104-502X</orcidid><orcidid>https://orcid.org/0000-0001-7069-4368</orcidid><orcidid>https://orcid.org/0000-0002-3070-5832</orcidid><orcidid>https://orcid.org/0000-0002-6692-6039</orcidid><orcidid>https://orcid.org/0000-0001-6339-4797</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Agglomeration Aggregation Chemical Sciences Computational Physics Condensed Matter Decay rate Electromagnetism Emission Engineering Sciences Excimers Inorganic chemistry Luminescence Material chemistry Materials Materials Science Micro and nanotechnologies Microelectronics Naphthalene Optical properties Optics Phosphonates Phosphorescence Photonic Physics Single crystals Tetrahedra Zinc
title	Excimer and Red Luminescence Due to Aggregation‐Induced Emission in Naphthalene Based Zinc Phosphonate
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