结论稀土配合物具有很强的荧光强度。
Conclusion The rare earth ternary complexes have strong fluorescence intensity.
结果表明两种稀土配合物具有较好的荧光性质。
Fluorescence spectra showed that two kinds of complexes have good fluorescence properties.
摘要在水溶液中合成了铕和试的四元羧酸稀土配合物。
Europium and terbium rare earth complexes with tetra carboxylic acid were successfully prepared in aqueous solution.
综述了水杨酸类稀土配合物的类型、合成方法、结构特征和应用。
This article reviews the types, synthesis method, structural characterization and applications of rare earth complexes with salicylic acids.
本论文第二部分对稀土配合物光致变色材料进行了合成及应用研究。
In the second part, rare earth polymer complex photochromic materials were synthesized and applied.
讨论了用不同方法合成的稀土配合物对共聚反应和聚合物性能的影响。
The influence on copolymerization and the property of the copolymer by different methods were discussed.
将稀土配合物引入光响应性偶氮苯聚合物体系,有望得到可光调制发光材料。
It is high promising to prepare optical modulation emission materials by incorporating lanthanide complex into photo-responsive azobenzene-containing polymers.
结果显示直接合成羧酸稀土配合物有利于共聚物性能的稳定和稀土含量的调节。
The result indicates that direct method can adjust the content of rare earth and increase the stability of the copolymer.
本发明提供了一种具有荧光特性的稀土配合物阴离子插层水滑石及其制备方法。
The present invention provides a kind of re complex anion intercalated hydrotalcite with fluorescent property and its preparation process.
对氯苯甲酸-2,4,6-三吡啶基三嗪稀土配合物的合成、表征及发光性能。
Synthesis, Characterization and Fluorescence Properties of Rare Earth with p-Chloro-benzoic Acid and 2,4,6-Tris-(2-pyridyl)-s-triazine.
其中有机发光材料可分为有机小分子、聚合物分子、金属配合物和稀土配合物四类。
Organic light-emitting materials contain organic small molecule materials, polymers, metal chelates and lanthanon chelates.
综述了稀土配合物电子跃迁光谱特征和研究进展,并指出了它的研究价值和应用前景。
In this paper, the electron transition spectra characteristic of rare earth complexes was expatiated, and actuality of research was summarized.
本文对稀土配合物的发光原理、电致发光的研究现状、存在问题及应用前景作了概述。
The luminescence principle, current research situation on electroluminescence devices using rare earth complex as emitter, existing problems and potential applications are outlined.
将稀土配合物应用于有机电致发光显示器件(OLED)对于实现全彩色显示具有重要意义。
The application of rare earth complexes in organic light emitting diode (OLED) is very significative for realizing full color display.
简要回顾了国内外近年来无机薄膜、复合薄膜、稀土配合物在工艺、合成、性能、机理等方面的研究情况。
The developments of inorganic films, organic-inorganic hybrid films, rare earth chromophore are reviewed with the emphasis on preparation methods, synthesis, properties and the mechanism.
通过沉淀法和直接法制备羧酸稀土配合物,与丙烯酸等单体共聚反应制备不同稀土含量的稀土有机高分子离聚物。
Synthesises rare earth complex monomer was conducted by sedimentation and direct method. The rare earth organic ionomer was synthesized by copolymerization of acrylic acid monomer.
具有窄带发射的稀土配合物发光材料,因其具有高荧光量子效率,高色纯度等特点,被用于制备有机电致发光器件。
Rare earth complex materials have been widely used in organic electroluminescence devices because of their high photoluminescence quantum efficiencies, narrow emission spectra and high color purity.
一种用于聚合高顺式异戊二烯橡胶的磺酸稀土催化剂,其特征在于该催化剂是由苯磺酸钕稀土配合物及烷基铝组成;
The invention relates to a sulfoacid rare earth catalyst for polymerizing high-cis-isoprene rubber and a preparation method thereof.
从DSC分析得到了配合物的脱水焓及分解焓,发现稀土配合物的表观分解活化能、配合物的脱水焓及分解焓呈现一定的规律性。
The enthalpy values of dehydration and thermal decomposition were determined by DSC. Some rules of the thermal behaviors for these complexes have been founded.
比较讨论了稀土阳离子、的阴离子与温度对形成配合物的影响。
The influences of rare earth ions, salt anions and temperature on formation of complexes were discussed.
稀土金属的双膦酸酯配合物及配位聚合物的合成、结构和催化性质已引起了人们的广泛关注。
The syntheses, structures and catalysis properties of rare earth complexes and polymers with diphosphonate have been extensively attracted.
研究了聚合溶剂,单体浓度,反应温度以及配合物中稀土离子性质对催化活性和所得聚苯乙烯分子量的影响。
The effects of the solvent, monomer concentration, temperature and rare earth element on the polymerization and the molecular weight of polymer were investigated.
本文概述了近年来国内外对稀土与过渡金属的氨基酸配合物的研究,主要介绍了它们的性质及其应用等。
The recent works on the amino acid complexes of rare earths and transition metals are reviewed with emphasis on their properties and applications.
研究结果表明配体与稀土离子有较好的配位能力,并与稀土元素形成了双核配合物。
The result showed that ligand has good coordination ability with rare earth ions, and a binuclear complex was formed.
又探讨了这些配体和稀土金属配合物与DNA的相互作用。
In addition, we also studied interaction mechanism between these ligands and their rare earth complexes with DNA.
各种稀土盐类及其配合物对多种芽孢菌的抑菌活性差别不大;
There was no big difference of the effect between different rare earth salts and complexes.
简要综述了稀土有机配合物发光研究的进展。
Advance in luminescence of rare earth complexes is briefly summarized.
结果表明用原位合成法,可以将难溶性稀土羧酸类配合物有效地掺杂到溶胶基质中。
The result indicates that rare earth carboxylates with poor solubility can be doped into sol matrix in situ.
结果表明用原位合成法,可以将难溶性稀土羧酸类配合物有效地掺杂到溶胶基质中。
The result indicates that rare earth carboxylates with poor solubility can be doped into sol matrix in situ.
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