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Promising Oxonitridosilicate Phosphor Host Sr3Si2O4N2: Synthesis, Structure, and Luminescence Properties Activated by Eu2+ and Ce3+/Li+ for pc-LEDs

A novel oxonitridosilicate phosphor host Sr3Si2O4N2 was synthesized in N2/H2 (6%) atmosphere by solid state reaction at high temperature using SrCO3, SiO2, and Si3N4 as starting materials. The crystal structure was determined by a Rietveld analysis on powder X-ray and neutron diffraction data. Sr3Si...

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Published in:	Inorganic chemistry 2012-03, Vol.51 (6), p.3540-3547
Main Authors:	Wang, Xiao-Ming, Wang, Chun-Hai, Kuang, Xiao-Jun, Zou, Ru-Qiang, Wang, Ying-Xia, Jing, Xi-Ping
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creator	Wang, Xiao-Ming Wang, Chun-Hai Kuang, Xiao-Jun Zou, Ru-Qiang Wang, Ying-Xia Jing, Xi-Ping
description	A novel oxonitridosilicate phosphor host Sr3Si2O4N2 was synthesized in N2/H2 (6%) atmosphere by solid state reaction at high temperature using SrCO3, SiO2, and Si3N4 as starting materials. The crystal structure was determined by a Rietveld analysis on powder X-ray and neutron diffraction data. Sr3Si2O4N2 crystallizes in cubic symmetry with space group Pa3̅, Z = 24, and cell parameter a = 15.6593(1) Å. The structure of Sr3Si2O4N2 is constructed by isolated and highly corrugated 12 rings which are composed of 12 vertex-sharing [SiO2N2] tetrahedra with bridging N and terminal O to form three-dimensional tunnels to accommodate the Sr2+ ions. The calculated band structure shows that Sr3Si2O4N2 is an indirect semiconductor with a band gap ≈ 2.84 eV, which is close to the experimental value ≈ 2.71 eV from linear extrapolation of the diffuse reflection spectrum. Sr3‑x Si2O4N2:xEu2+ shows a typical emission band peaking at ∼600 nm under 460 nm excitation, which perfectly matches the emission of blue InGaN light-emitting diodes. For Ce3+/Li+-codoped Sr3Si2O4N2, one excitation band is in the UV range (280–350 nm) and the other in the UV blue range (380–420 nm), which matches emission of near-UV light-emitting diodes. Emission of Sr3–2x Si2O4N2:xCe3+,xLi+ shows a asymmetric broad band peaking at ∼520 nm. The long-wavelength excitation and emission of Eu2+ and Ce3+/Li+-doped Sr3Si2O4N2 make them attractive for applications in phosphor-converted white light-emitting diodes.
doi_str_mv	10.1021/ic202340q
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The crystal structure was determined by a Rietveld analysis on powder X-ray and neutron diffraction data. Sr3Si2O4N2 crystallizes in cubic symmetry with space group Pa3̅, Z = 24, and cell parameter a = 15.6593(1) Å. The structure of Sr3Si2O4N2 is constructed by isolated and highly corrugated 12 rings which are composed of 12 vertex-sharing [SiO2N2] tetrahedra with bridging N and terminal O to form three-dimensional tunnels to accommodate the Sr2+ ions. The calculated band structure shows that Sr3Si2O4N2 is an indirect semiconductor with a band gap ≈ 2.84 eV, which is close to the experimental value ≈ 2.71 eV from linear extrapolation of the diffuse reflection spectrum. Sr3‑x Si2O4N2:xEu2+ shows a typical emission band peaking at ∼600 nm under 460 nm excitation, which perfectly matches the emission of blue InGaN light-emitting diodes. For Ce3+/Li+-codoped Sr3Si2O4N2, one excitation band is in the UV range (280–350 nm) and the other in the UV blue range (380–420 nm), which matches emission of near-UV light-emitting diodes. Emission of Sr3–2x Si2O4N2:xCe3+,xLi+ shows a asymmetric broad band peaking at ∼520 nm. The long-wavelength excitation and emission of Eu2+ and Ce3+/Li+-doped Sr3Si2O4N2 make them attractive for applications in phosphor-converted white light-emitting diodes.</description><identifier>ISSN: 0020-1669</identifier><identifier>EISSN: 1520-510X</identifier><identifier>DOI: 10.1021/ic202340q</identifier><identifier>PMID: 22376199</identifier><language>eng</language><publisher>United States: American Chemical Society</publisher><ispartof>Inorganic chemistry, 2012-03, Vol.51 (6), p.3540-3547</ispartof><rights>Copyright © 2012 American Chemical Society</rights><rights>2012 American Chemical Society</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/22376199$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Wang, Xiao-Ming</creatorcontrib><creatorcontrib>Wang, Chun-Hai</creatorcontrib><creatorcontrib>Kuang, Xiao-Jun</creatorcontrib><creatorcontrib>Zou, Ru-Qiang</creatorcontrib><creatorcontrib>Wang, Ying-Xia</creatorcontrib><creatorcontrib>Jing, Xi-Ping</creatorcontrib><title>Promising Oxonitridosilicate Phosphor Host Sr3Si2O4N2: Synthesis, Structure, and Luminescence Properties Activated by Eu2+ and Ce3+/Li+ for pc-LEDs</title><title>Inorganic chemistry</title><addtitle>Inorg. Chem</addtitle><description>A novel oxonitridosilicate phosphor host Sr3Si2O4N2 was synthesized in N2/H2 (6%) atmosphere by solid state reaction at high temperature using SrCO3, SiO2, and Si3N4 as starting materials. The crystal structure was determined by a Rietveld analysis on powder X-ray and neutron diffraction data. Sr3Si2O4N2 crystallizes in cubic symmetry with space group Pa3̅, Z = 24, and cell parameter a = 15.6593(1) Å. The structure of Sr3Si2O4N2 is constructed by isolated and highly corrugated 12 rings which are composed of 12 vertex-sharing [SiO2N2] tetrahedra with bridging N and terminal O to form three-dimensional tunnels to accommodate the Sr2+ ions. The calculated band structure shows that Sr3Si2O4N2 is an indirect semiconductor with a band gap ≈ 2.84 eV, which is close to the experimental value ≈ 2.71 eV from linear extrapolation of the diffuse reflection spectrum. Sr3‑x Si2O4N2:xEu2+ shows a typical emission band peaking at ∼600 nm under 460 nm excitation, which perfectly matches the emission of blue InGaN light-emitting diodes. For Ce3+/Li+-codoped Sr3Si2O4N2, one excitation band is in the UV range (280–350 nm) and the other in the UV blue range (380–420 nm), which matches emission of near-UV light-emitting diodes. Emission of Sr3–2x Si2O4N2:xCe3+,xLi+ shows a asymmetric broad band peaking at ∼520 nm. 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Chem</addtitle><date>2012-03-19</date><risdate>2012</risdate><volume>51</volume><issue>6</issue><spage>3540</spage><epage>3547</epage><pages>3540-3547</pages><issn>0020-1669</issn><eissn>1520-510X</eissn><abstract>A novel oxonitridosilicate phosphor host Sr3Si2O4N2 was synthesized in N2/H2 (6%) atmosphere by solid state reaction at high temperature using SrCO3, SiO2, and Si3N4 as starting materials. The crystal structure was determined by a Rietveld analysis on powder X-ray and neutron diffraction data. Sr3Si2O4N2 crystallizes in cubic symmetry with space group Pa3̅, Z = 24, and cell parameter a = 15.6593(1) Å. The structure of Sr3Si2O4N2 is constructed by isolated and highly corrugated 12 rings which are composed of 12 vertex-sharing [SiO2N2] tetrahedra with bridging N and terminal O to form three-dimensional tunnels to accommodate the Sr2+ ions. The calculated band structure shows that Sr3Si2O4N2 is an indirect semiconductor with a band gap ≈ 2.84 eV, which is close to the experimental value ≈ 2.71 eV from linear extrapolation of the diffuse reflection spectrum. Sr3‑x Si2O4N2:xEu2+ shows a typical emission band peaking at ∼600 nm under 460 nm excitation, which perfectly matches the emission of blue InGaN light-emitting diodes. For Ce3+/Li+-codoped Sr3Si2O4N2, one excitation band is in the UV range (280–350 nm) and the other in the UV blue range (380–420 nm), which matches emission of near-UV light-emitting diodes. Emission of Sr3–2x Si2O4N2:xCe3+,xLi+ shows a asymmetric broad band peaking at ∼520 nm. The long-wavelength excitation and emission of Eu2+ and Ce3+/Li+-doped Sr3Si2O4N2 make them attractive for applications in phosphor-converted white light-emitting diodes.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>22376199</pmid><doi>10.1021/ic202340q</doi><tpages>8</tpages></addata></record>
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title	Promising Oxonitridosilicate Phosphor Host Sr3Si2O4N2: Synthesis, Structure, and Luminescence Properties Activated by Eu2+ and Ce3+/Li+ for pc-LEDs
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