Tunable photoluminescence of europium-doped layered double hydroxides intercalated by coumarin-3-carboxylate
2014
Zhang, Zhuang | Chen, Guangming | Liu, Jingang
We report a highly tunable photoluminescence of rare-earth (europium, Eu³⁺) doped layered double hydroxides (LDHs) intercalated by an organic photofunctional anion, courmarin-3-carboxylate (C3C). Novel Eu³⁺-doped LDHs intercalated by C3C (ZnAlEu–LDH–C3C) with high purity and crystallinity have been successfully synthesized via an interlayer ion exchange process using Eu³⁺ doped LDH (ZnAlEu–LDH–NO₃) as a precursor. A bilayer arrangement with nearly perpendicular orientation was deduced for the C3C anions in the LDH interlayer space. Compared with the precursor, ZnAlEu–LDH–C3C shows a strong UV absorbance and an interesting photoluminescence function, possibly due to an interfacial energy transfer process between the interlayer C3C anions and the Eu³⁺ within the LDH lattices. The photoluminescent spectra denote a lower symmetry of the coordinating environment around Eu³⁺ within ZnAlEu–LDH–C3C. More importantly, the photoluminescence of ZnAlEu–LDH–C3C could be highly tuned by simply adjusting the structural constituents (including the content of Eu³⁺ or C3C) or the excited wavelength. These findings open new avenues to prepare tunable photoluminescent materials and further have potential applications for optical devices.
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