New europium complexes and their use in red light-emitting diodes and vapoluminescent sensors

IF 3.7 3区 工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
R. Devi, Rajamouli Boddula, Kasturi Singh, Satendra Kumar, S. Vaidyanathan
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引用次数: 10

Abstract

Three novel trivalent europium [Eu(III)] complexes – Eu(DBM)3Phen-Ph-Ph, Eu(DBM)3Phen-mCF3-Ph, and Eu(DBM)3Phen-pCF3-Ph – were designed, synthesized, and characterized using various spectroscopic methods. Then their photophysical characteristics were investigated. The Eu complexes in the solid phase showed a pure red emission (due to the electric dipole transitions of the Eu3+ ion). In a solution, they had multiple emissions due to their ligand contribution. The solvatochromism studies revealed that the Eu(III) complexes in the methanol and DMSO solutions had both metal ion and ligand emissions with similar intensities, which yielded a white emission. Of all the Eu(III) complexes, Eu(DBM)3Phen-mCF3-Ph showed the best quantum yield. In addition, the fluorinated mCF3 ligand had an unusually high lifetime value. Its remarkable linear decrease in luminescence intensity with increasing temperature opens a new window for its use as a sensitive temperature sensor at the 30–80°C range. The CIE color coordinates of the fabricated red LEDs (InGaN) are very close to the standard NTSC CIE color coordinates for bright red emissions, and the color purity as well as the LER values of the fabricated red LEDs are also very good. The Eu(III) complexes exhibited on-off photoluminescence switching via the vapoluminescent process and responded best to the acid-base (HCl-NH3) vapors. All these features suggest that the synthesized Eu(III) complexes are efficient candidates for red-emitting LEDs and vapoluminescent sensors. Organic chromophores, which are phenanthro-imidazole ligands based on fluorinated moieties coordinated with Eu(III) metal ions, very efficiently facilitate energy transfer from the ligand to the Eu(III) ion. The CIE color coordinates of the complexes showed a bright pure red emission, with x = 0.66 and y = 0.33 (612 nm). The fabricated light-emitting diode (LED) showed superior color quality and the complexes showed on-off-on luminescence behavior after exposure to the acid-base vapors.
新型铕配合物及其在红色发光二极管和电致发光传感器中的应用
设计、合成了三种新型三价铕[Eu(III)]配合物——Eu(DBM)3Phen-Ph-Ph、Eu(DBM)3Phen-mCF3-Ph和Eu(DBM)3Pen-pCF3-Ph-,并使用各种光谱方法对其进行了表征。然后研究了它们的光物理特性。固相中的Eu络合物显示出纯红色发射(由于Eu3+离子的电偶极跃迁)。在一个溶液中,由于配体的贡献,它们有多次发射。溶剂化色度研究表明,在甲醇和二甲基亚砜溶液中的Eu(III)配合物具有相似强度的金属离子和配体发射,产生白色发射。在所有的Eu(III)配合物中,Eu(DBM)3Phen-mCF3-Ph表现出最好的量子产率。此外,氟化mCF3配体具有异常高的寿命值。随着温度的升高,其发光强度显著线性下降,为其在30–80°C范围内用作敏感温度传感器打开了一个新的窗口。制造的红色LED(InGaN)的CIE色坐标非常接近于用于明亮红色发射的标准NTSC CIE色座标,并且制造的红色LEDs的色纯度以及LER值也非常好。Eu(III)配合物通过电致发光过程表现出开关光致发光开关,并对酸碱(HCl-NH3)蒸汽反应最好。所有这些特征表明,合成的Eu(III)配合物是红色发光LED和电致发光传感器的有效候选者。有机发色团是基于与Eu(III)金属离子配位的氟化部分的菲-咪唑配体,非常有效地促进了从配体到Eu(Ⅲ)离子的能量转移。配合物的CIE色坐标显示出明亮的纯红色发射,x = 0.66和y = 0.33(612 nm)。所制备的发光二极管(LED)在暴露于酸碱蒸汽后显示出优异的色彩质量,并且复合物显示出开关发光行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Information Display
Journal of Information Display MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
7.10
自引率
5.40%
发文量
27
审稿时长
30 weeks
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