Other rare earth ions do not interfere.
其他稀土离子不干扰。
The phenomenon of up-conversion is the peculiar property of rare earth ions.
上转换现象是稀土元素激光材料具有的特性。
All the data suggest that the rare earth ions play a unique role in the structure of these glasses.
所有得到的数据表明稀土离子在玻璃结构中起着重要的作用。
The influences of rare earth ions, salt anions and temperature on formation of complexes were discussed.
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 interference caused by other rare earth ions can be removed by using dual wavelength spectrophotometry.
其它稀土离子的干扰可通过双波长光度法测量扣除。
The result showed that ligand has good coordination ability with rare earth ions, and a binuclear complex was formed.
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。
These compounds have tripodal structure, can produce strong fluorescence and can coordinate selectively with rare earth ions.
此类化合物具有近似三角架形结构,能产生荧光,可以与稀土离子进行选择性配位。
Rare earth ions doped tellurite glasses are kinds of upconversion fluorescence materials which have good application prospect.
稀土离子掺杂碲酸盐系统玻璃是一类应用前景良好的上转换发光材料。
The distribution of rare earth ions embedded into porous silicon films was observed by Rutherford backscattering spectrometry.
用卢瑟福背散射谱分析了稀土离子在多孔硅薄膜中的分布情况。
The results show that the triplet state energy of the ligand is most matching with the excitated state energy of rare earth ions.
结果表明,配体的三重态能级与稀土离子的激发态能级匹配。
Because the similarity between rare earth ions Ln superscript 3 + and ca superscript 2 +, they will intervene and regulate bone formation and remodeling.
由于稀土与钙离子的相似性,它们将干预和调控骨的形成与再造。
The rare earth ions lie between the disilicate groups and the sheets of octahedra to form (8+3)-coordinated A(1)-polyhedra and 10-coordinated A(2)-polyhedra.
稀土离子位于双硅酸根和八面体层之间,形成(8+3 )配位的A(1)多面体和10配位的A(2 )多面体。
Rare earth ions can be used as a kind of effective probe in biomolecular studies, and their biological effects have received increasingly attention nowadays.
稀土金属离子是一种研究生物大分子体系的有效探针,同时其自身的生物效应也越来越受到人们重视。
Rare earth luminescence materials have outstanding luminescent properties and wide potential application due to rare earth ions have special electronic shell structures.
由于稀土离子独特的电子层结构,使得稀土发光材料具有优异的发光性能及广阔的应用前景。
The influence on luminescence behaviour of same rare earth ion from different ligand and the action of same ligand to luminescence of various rare earth ions were discussed.
讨论了不同配体对同一稀土离子发光影响和同一配体对不同稀土离子发光作用。
The phosphate glasses doped with rare earth ions have been widely used in laser mediums and optical filter materials for their outstanding optical and spectrum characteristics.
稀土掺杂磷酸盐玻璃具有优异的光学和光谱特性,在激光介质材料、有色滤光材料等领域中有着重要的应用。
Furthermore, the energy levels of rare earth ions in fluoride glasses have long lifetimes, and much more substable levels can be formed, thus upconversion laser transition is abundant.
利用稀土离子在氟化物光纤中的上转换特性,可以获得性能优良的光纤激光器。
Because of the high chemical activity, the structural complexity and the conformational flexibility of enzymes, it is difficult to study of the interaction of rare earth ions with enzymes.
其主要原因是由于这些酶具有高化学活性、结构复杂性、构象易变性等特点,使研究这些酶与稀土离子相互作用比较困难。
Basing on the principle of the abnormal-valence chemistry of lanthanide, we summarize the action of rare earth ions in LLP materials and present our idea on the designing of LLP materials.
从稀土元素变价化学的角度出发讨论了稀土离子在长余辉材料中的作用,介绍了长余辉材料设计的一些想法。
The electrical conductivity properties of the materials showed that the introduction of graphite nanosheets and rare earth ions was effective to improve the conductivity of nanocomposites.
发现复合材料中引入纳米石墨薄片和稀土金属纳米粒子,提高了材料的导电性,并使复合材料拥有更低的渗滤阀值。
It is worth noting that porous materials functionalized with photoluminescence via doping rare earth ions have potential applications in the fields of drug delivery and disease diagnosis and therapy.
稀土离子掺杂的光功能化的多孔材料因其独特的多孔结构和发光性质而被认为在药物传输和疾病诊断治疗等方面具有潜在的应用价值。
In the beginning of post-graduate studies, I chose to study rare-earth ions for the cell of the role of the endoplasmic reticulum.
在研究生学习之始,我选择致力于研究稀土离子对于细胞内质网的作用。
These changes can be explained in terms of the decrease in average diameter of rare-earth ions and the model of spin clusters.
这些变化可以用稀土离子平均直径的减小和自旋团簇模型来解释。
It was indicated by the structural analyses that the cell parameters were increased by rare earth doping, which expands the tunnels for Li-ions diffusion and also stabilizes the LiMn_2O_4 frame.
结构分析表明,稀土金属的掺杂在一定程度上增大了晶胞参数,扩展了锂离子脱嵌的通道,并起到稳定材料骨架的作用。
The co precipitation behavior and the effects of impurity ions on the crystallization properties of yttrium base heavy rare earth carbonate were investigated.
本文对钇基重稀土碳酸盐沉淀过程中杂质铁、铝离子的共沉淀行为以及对碳酸稀土的结晶性能和结晶效果的影响进行了研究。
The co precipitation behavior and the effects of impurity ions on the crystallization properties of yttrium base heavy rare earth carbonate were investigated.
本文对钇基重稀土碳酸盐沉淀过程中杂质铁、铝离子的共沉淀行为以及对碳酸稀土的结晶性能和结晶效果的影响进行了研究。
应用推荐