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Multimetal rare earth MOFs for lighting and thermometry: tailoring color and optimal temperature range through enhanced disulfobenzoic triplet phosphorescence
New isostructural compounds [Ln sub(7)(3,5-DSB) sub(4)(OH) sub(9)(H sub(2)O) sub(15)].4H sub(2)O (Ln = Eu, Gd and Tb) (DSB = 3,5-disulfobenzoate), with excellent optical properties, have been obtained and studied. By combining the lanthanide cations with the DSB ligand the formation of a singular he...
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| Published in: | Journal of materials chemistry. C, Materials for optical and electronic devices Materials for optical and electronic devices, 2013-01, Vol.1 (39), p.6316-6324 |
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| cites | cdi_FETCH-LOGICAL-c330t-c5cc2764c5c2dec44598041c7c851eed2d7308b03c6e5e3eae242f9eaaa9790f3 |
| container_end_page | 6324 |
| container_issue | 39 |
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| container_title | Journal of materials chemistry. C, Materials for optical and electronic devices |
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| creator | D'Vries, Richard F. Álvarez-García, Susana Snejko, Natalia Bausá, Luisa E. Gutiérrez-Puebla, Enrique de Andrés, Alicia Monge, M. Ángeles |
| description | New isostructural compounds [Ln sub(7)(3,5-DSB) sub(4)(OH) sub(9)(H sub(2)O) sub(15)].4H sub(2)O (Ln = Eu, Gd and Tb) (DSB = 3,5-disulfobenzoate), with excellent optical properties, have been obtained and studied. By combining the lanthanide cations with the DSB ligand the formation of a singular heptanuclear [Ln sub(7)(OH) sub(9)] super(+12) metallic core secondary building unit (SBU) has been promoted. This core is defined as a bi-capped dicubane SBU, and is a 4-connected node in a bidimensional net with (4 super(4).6 super(2) ) topology. The highly efficient emission from the triplet state of the disulfobenzoic ligand in the Gd-MOF and the exponential temperature dependence of I sub(Triplet)/I sub(Ln) = I sub(o) exp(-E sub(A)/k sub(B )T) allow the design of thermometers with different color ranges through the adequate multimetal combination that cover almost the whole visible spectrum and are useful in a wide temperature range (10-300 K) with unprecedented sensitivities up to 32% K super(-1). The Eu-DSB and Tb-DSB MOFs present an optimum antenna effect, a temperature independent f-f emission temporal decay and, in spite of the close packing of the Ln ions inside the MOF, no concentration quenching. The external efficiency is drastically increased in MOFs with a combination of a few percent of Eu and/or Tb with Gd by means of radiative and non-radiative energy transfers from the Gd ions and Gd connected ligands. |
| doi_str_mv | 10.1039/c3tc30858h |
| format | article |
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Ángeles</creator><creatorcontrib>D'Vries, Richard F. ; Álvarez-García, Susana ; Snejko, Natalia ; Bausá, Luisa E. ; Gutiérrez-Puebla, Enrique ; de Andrés, Alicia ; Monge, M. Ángeles</creatorcontrib><description>New isostructural compounds [Ln sub(7)(3,5-DSB) sub(4)(OH) sub(9)(H sub(2)O) sub(15)].4H sub(2)O (Ln = Eu, Gd and Tb) (DSB = 3,5-disulfobenzoate), with excellent optical properties, have been obtained and studied. By combining the lanthanide cations with the DSB ligand the formation of a singular heptanuclear [Ln sub(7)(OH) sub(9)] super(+12) metallic core secondary building unit (SBU) has been promoted. This core is defined as a bi-capped dicubane SBU, and is a 4-connected node in a bidimensional net with (4 super(4).6 super(2) ) topology. The highly efficient emission from the triplet state of the disulfobenzoic ligand in the Gd-MOF and the exponential temperature dependence of I sub(Triplet)/I sub(Ln) = I sub(o) exp(-E sub(A)/k sub(B )T) allow the design of thermometers with different color ranges through the adequate multimetal combination that cover almost the whole visible spectrum and are useful in a wide temperature range (10-300 K) with unprecedented sensitivities up to 32% K super(-1). The Eu-DSB and Tb-DSB MOFs present an optimum antenna effect, a temperature independent f-f emission temporal decay and, in spite of the close packing of the Ln ions inside the MOF, no concentration quenching. 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Ángeles</creatorcontrib><title>Multimetal rare earth MOFs for lighting and thermometry: tailoring color and optimal temperature range through enhanced disulfobenzoic triplet phosphorescence</title><title>Journal of materials chemistry. C, Materials for optical and electronic devices</title><description>New isostructural compounds [Ln sub(7)(3,5-DSB) sub(4)(OH) sub(9)(H sub(2)O) sub(15)].4H sub(2)O (Ln = Eu, Gd and Tb) (DSB = 3,5-disulfobenzoate), with excellent optical properties, have been obtained and studied. By combining the lanthanide cations with the DSB ligand the formation of a singular heptanuclear [Ln sub(7)(OH) sub(9)] super(+12) metallic core secondary building unit (SBU) has been promoted. This core is defined as a bi-capped dicubane SBU, and is a 4-connected node in a bidimensional net with (4 super(4).6 super(2) ) topology. The highly efficient emission from the triplet state of the disulfobenzoic ligand in the Gd-MOF and the exponential temperature dependence of I sub(Triplet)/I sub(Ln) = I sub(o) exp(-E sub(A)/k sub(B )T) allow the design of thermometers with different color ranges through the adequate multimetal combination that cover almost the whole visible spectrum and are useful in a wide temperature range (10-300 K) with unprecedented sensitivities up to 32% K super(-1). The Eu-DSB and Tb-DSB MOFs present an optimum antenna effect, a temperature independent f-f emission temporal decay and, in spite of the close packing of the Ln ions inside the MOF, no concentration quenching. The external efficiency is drastically increased in MOFs with a combination of a few percent of Eu and/or Tb with Gd by means of radiative and non-radiative energy transfers from the Gd ions and Gd connected ligands.</description><subject>Cations</subject><subject>Color temperature</subject><subject>Construction</subject><subject>Emission</subject><subject>Ligands</subject><subject>Lighting</subject><subject>Optimization</subject><subject>Rare earth metals</subject><issn>2050-7526</issn><issn>2050-7534</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><recordid>eNpFkc1KxDAQx4souKx78QlyFGE1aZqm9SaLX7DLXvRcsum0jaRNnaSH9WF8VrOu6MAwA_ObP_ORJJeM3jDKy1vNg-a0EEV3ksxSKuhSCp6d_uVpfp4svH-n0QqWF3k5S742kw2mh6AsQYVAQGHoyGb76EnjkFjTdsEMLVFDTUIH2LsI4_6OBGWsw0NJu5j8AG6MWlEpQD8CqjBFQVRDC7EV3dR2BIZODRpqUhs_2cbtYPh0RpOAZrQQyNg5Hx3Ba4jcRXLWKOth8Rvnydvjw-vqebnePr2s7tdLzTkNSy20TmWexZjWoLNMlAXNmJa6EAygTmsZD7OjXOcggIOCNEubEpRSpSxpw-fJ1VF3RPcxgQ9Vb-IE1qoB3OQrlksmhMxLGdHrI6rReY_QVCPGpXFfMVod_lD9_4F_AyeugJQ</recordid><startdate>20130101</startdate><enddate>20130101</enddate><creator>D'Vries, Richard F.</creator><creator>Álvarez-García, Susana</creator><creator>Snejko, Natalia</creator><creator>Bausá, Luisa E.</creator><creator>Gutiérrez-Puebla, Enrique</creator><creator>de Andrés, Alicia</creator><creator>Monge, M. Ángeles</creator><scope>AAYXX</scope><scope>CITATION</scope><scope>7SP</scope><scope>7SR</scope><scope>7U5</scope><scope>8BQ</scope><scope>8FD</scope><scope>JG9</scope><scope>L7M</scope></search><sort><creationdate>20130101</creationdate><title>Multimetal rare earth MOFs for lighting and thermometry: tailoring color and optimal temperature range through enhanced disulfobenzoic triplet phosphorescence</title><author>D'Vries, Richard F. ; Álvarez-García, Susana ; Snejko, Natalia ; Bausá, Luisa E. ; Gutiérrez-Puebla, Enrique ; de Andrés, Alicia ; Monge, M. 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Ángeles</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Multimetal rare earth MOFs for lighting and thermometry: tailoring color and optimal temperature range through enhanced disulfobenzoic triplet phosphorescence</atitle><jtitle>Journal of materials chemistry. C, Materials for optical and electronic devices</jtitle><date>2013-01-01</date><risdate>2013</risdate><volume>1</volume><issue>39</issue><spage>6316</spage><epage>6324</epage><pages>6316-6324</pages><issn>2050-7526</issn><eissn>2050-7534</eissn><abstract>New isostructural compounds [Ln sub(7)(3,5-DSB) sub(4)(OH) sub(9)(H sub(2)O) sub(15)].4H sub(2)O (Ln = Eu, Gd and Tb) (DSB = 3,5-disulfobenzoate), with excellent optical properties, have been obtained and studied. By combining the lanthanide cations with the DSB ligand the formation of a singular heptanuclear [Ln sub(7)(OH) sub(9)] super(+12) metallic core secondary building unit (SBU) has been promoted. This core is defined as a bi-capped dicubane SBU, and is a 4-connected node in a bidimensional net with (4 super(4).6 super(2) ) topology. The highly efficient emission from the triplet state of the disulfobenzoic ligand in the Gd-MOF and the exponential temperature dependence of I sub(Triplet)/I sub(Ln) = I sub(o) exp(-E sub(A)/k sub(B )T) allow the design of thermometers with different color ranges through the adequate multimetal combination that cover almost the whole visible spectrum and are useful in a wide temperature range (10-300 K) with unprecedented sensitivities up to 32% K super(-1). The Eu-DSB and Tb-DSB MOFs present an optimum antenna effect, a temperature independent f-f emission temporal decay and, in spite of the close packing of the Ln ions inside the MOF, no concentration quenching. The external efficiency is drastically increased in MOFs with a combination of a few percent of Eu and/or Tb with Gd by means of radiative and non-radiative energy transfers from the Gd ions and Gd connected ligands.</abstract><doi>10.1039/c3tc30858h</doi><tpages>9</tpages></addata></record> |
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| source | Royal Society of Chemistry:Jisc Collections:Royal Society of Chemistry Read and Publish 2022-2024 (reading list) |
| subjects | Cations Color temperature Construction Emission Ligands Lighting Optimization Rare earth metals |
| title | Multimetal rare earth MOFs for lighting and thermometry: tailoring color and optimal temperature range through enhanced disulfobenzoic triplet phosphorescence |
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