Enhanced luminescence of delaminated layered europium hydroxide (LEuH) composites with sensitizer anions of coumarin-3-carboxylic acid.

Title Enhanced luminescence of delaminated layered europium hydroxide (LEuH) composites with sensitizer anions of coumarin-3-carboxylic acid.
Authors L. Ma; M. Yuan; C. Liu; L. Xie; F. Su; S. Ma; G. Sun; H. Li
Journal Dalton Trans
DOI 10.1039/c7dt02662e
Abstract

The organic compound of coumarin-3-carboxylic acid (CCA), deprotonated beforehand by NaOH, and the 1-octane sulfonic acid anion (OS) were co-intercalated into the gallery of the layered europium hydroxide (LEuH) via an ion exchange method. Different molar ratios of CCA/OS and NaOH/CCA gave rise to the composites of CCA1-xOSx-LEuH (x = 0.8-1.0) showing different emission intensities. In formamide (FM), all composites were delaminated and the formed colloidal suspensions exhibited enhanced red luminescence of Eu(3+) in comparison with the OS-LEuH without CCA. Also, the red emissions of the composites were different from the violet emission (421 nm) of free CCA(-) and blue emission (471 nm) of CCA(2-) anions in different deprotonation states. The energy levels of CCA and Eu(3+) were analyzed to explain the sensitization effect for Eu(3+) luminescence. The fluorescence lifetimes of CCA0.2OS0.8-LEuH-1?:?1, CCA0.02OS0.98-LEuH-1?:?1, CCA0.2OS0.8-LEuH-1?:?2, and CCA0.02OS0.98-LEuH-1?:?2 were determined to be 0.705, 0.704, 0.699 and 0.638 ms, respectively, indicating significantly longer lifetimes. The PL quantum yields of ?10% demonstrate the excellent luminescence properties of the as-prepared CCA1-xOSx-LEuH composites. This is the first report on the sensitized luminescence properties of layer Eu(3+) ions in LRH composites in the delaminated state. The intriguing red luminescence of delaminated LEuH composites offers a promising approach to achieve efficient luminescent film materials.

Citation L. Ma; M. Yuan; C. Liu; L. Xie; F. Su; S. Ma; G. Sun; H. Li.Enhanced luminescence of delaminated layered europium hydroxide (LEuH) composites with sensitizer anions of coumarin-3-carboxylic acid.. Dalton Trans. 2017;46(37):1272412731. doi:10.1039/c7dt02662e

Related Elements

Europium

See more Europium products. Europium (atomic symbol: Eu, atomic number: 63) is a Block F, Group 3, Period 6 element with an atomic radius of 151.964. Europium Bohr ModelThe number of electrons in each of Europium's shells is 2, 8, 18, 25, 8, 2 and its electron configuration is [Xe]4f7 6s2. The europium atom has an atomic radius of 180 pm and a Van der Waals radius of 233 pm. Europium was discovered by Eugène-Anatole Demarçay in 1896, however, he did not isolate it until 1901. Europium was named after the continent of Europe.Elemental Europium Picture Europium is a member of the lanthanide or rare earth series of metals. In its elemental form, it has a silvery-white appearance but it is rarely found without oxide discoloration. Europium is found in many minerals including bastnasite, monazite, xenotime and loparite. It is not found in nature as a free element.

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