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MOF frame material for efficient rare earth adsorption, white light modulation and temperature sensing

from: | update:2017-09-18 | font:small-middle-big | views25053

China is a rare earth resource, the development of rare earth applications with unique advantages in resources, rare earth materials has become energy-efficient lighting, display and information industry development process indispensable basic materials. As the rare earth ion emission band narrow, pure color, visible area wide, high efficiency of light absorption and conversion, up to millisecond long excited state life, luminous stability, high temperature. Based on these excellent performance, research and development of rare earth luminescent materials will bring energy saving and environmental protection, color purity, high strength and long life of the light source applications to promote the lighting display industry upgrade optimization.
Recently, the University of Changzhou Institute of Petrochemical Technology Professor Wu Daju (click to view the introduction) research team designed a two-dimensional interchangeable grille MOF frame material, the use of MOF microporous structure, to achieve a rare earth ion adsorption and fluorescent light color adjustment application. The change of the LLCT excited fluorescence of the ligand involved in the metal ion was optimized by changing the mixed ligand strategy, and the structure of the MOF with high fluorescence emission was constructed. The variable temperature fluorescence study showed that the structure had high sensitivity and thermal response. 2.5% at room temperature increased to 18.4% of the liquid nitrogen temperature, and the chromaticity coordinates shifted from (0.221, 0.211) to (0.176, 0.147), close to the saturated blue emission characteristics.

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Figure 1. Grid MOF interpenetrating structure and temperature dependent fluorescence spectra

In addition, they can adsorb rare earth ions into the MOF microporous structure through the basic and chemical principles of the host and guest in the water dispersion system. The Ln @ MOF composites can form rare earth ions in the aqueous phase or solid state. By adjusting the Eu3 + Tb3 + stoichiometric ratio, to achieve the light color almost perfect three primary colors (RGB) composite white light emission. They further utilize the height of the three-color light and the energy transfer between the host and the guest, between the rare earth ions and the fluorescence response of the MOF main body to the temperature stimulus sensitivity, such as exhibiting complex white light at room temperature (0.333, 0.328), and the liquid nitrogen temperature exhibited blue light emission (0.180, 0.126), which exhibited excellent thermal sensing properties.

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Figure 2. Fluorescence response spectra of MOF materials to rare earth ions

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Figure 3. Temperature-stimulated emission spectra and chromaticity coordinates of rare earth composite MOF materials

This work not only provides a new way for the preparation of novel luminous function MOF, but also in the regulation of rare earth ion light mode also has important reference value. The work was completed under the auspices of the National Natural Science Foundation of China and the Jiangsu Provincial Advantage Program, published in full text on Inorganic Chemistry.