并对该聚合物的结构进行了表征。
此外,对聚合物的结构也进行了测定。
用红外光谱证实了单体和聚合物的结构。
And Infrared Spectra testified the structure of the monomer and the polymer.
该荧光聚合物的结构通式如式VII所示。
The general structural formula of the fluorescent polymer is shown as a formula VII.
用红外光谱仪,对聚合物的结构进行了表征。
The structure of the polymer is indicated by using infrared spectrum.
并对聚合物的结构及聚合反应的类型进行了探讨。
The structure and polymerization reaction type of the polymer were also discussed.
用红外及核磁共振的测试方法对聚合物的结构进行表征。
Thus graft polymers with different electronic effect of the end group in side chain were obtained.
该聚合物的结构特征是含有硅原子和芳炔基团的超支化结构。
The polymer is structurally characterized in that the polymer is a hyper-branched structure containing silicone atoms and aryne group.
在分子、原子、介观和宏观层次上讨论了聚合物的结构和智能性。
At the atomic, molecular, mesoscopic and macroscopic levels, the structure features and intelligences of polymer were also discussed in detail.
介绍了两亲聚合物的结构特点及其在稳定金属胶体方面的应用情况。
Amphiphilic copolymers have been paid much attention in recent years. Their structural features and applications in stabilizing metal colloids is reviewed in this paper.
并用元素分析、红外光谱和热重分析等方法研究了聚合物的结构与性能。
The polymer structures were studied by means of IR spectra and chemical composition analysis. The polymer properties such as thermostability and hydrophobicity were also determined.
以IR、DTA、TG等对单体和酞菁聚合物的结构和热性能进行了表征和研究。
The structure and the thermal properties of the monomers and phthalocyanine polymers were characterized and evaluated by IR, DTA, TG.
通过元素分析、核磁共振谱、红外光谱和可见吸收光谱对单体和聚合物的结构进行了鉴定。
T heir chemical structures were identified by NMR, UV and ir spectra as well as elemental analysis.
并对聚合条件、聚合物的结构、聚合物薄膜的变色范围以及电化学聚合机理进行了详细的研究。
Research on the polymerization conditions, polymer structure and color changing ranges of the films were carried out in detail.
结果表明,阳离子度、分子量以及聚合物的结构是影响聚环氧氯丙烷—二甲胺絮凝效果的重要因素。
The experimental results show that the cationicity, the molecular weight and the structure have a great effect on the flocculation efficiency of polyamine flocculants.
测定了其聚合物的低临界共溶温度(LCST),并初步研究了聚合物的结构与LCST之间的关系。
The graft copolymer HPG-g-PNIPAM shows the Lower Critical Solution Temperature (LCST), and the relationship between the LCST and structure was studied.
通过1H NMR和IR对单体和聚合物的结构进行了表征,并证实了聚合物的硅氢化程度近于完全。
The chemical structure of the monomer and the polymer was confirmed by 1H-NMR and IR measurements and the full hydrosilation reaction of the polymer was confirmed.
对于聚合物型杀菌剂,相关的杀菌机理以及聚合物的结构与杀菌活性的关系的研究还有待进一步的研究。
For the polymeric bactericides, research on the bactericidal mechanism and relationship between structures and antibacterial activity should be further study intensively.
该制备方法设计合理,操作简单,且聚合物的结构可通过在合成过程中加入不同性能的取代物进行调控。
The preparation process is reasonable and simple, and can regulate the structure of the polymer via adding different substitutes in the synthesis.
以红外光谱、 元素分析确定了单体与聚合物的结构,讨论了PLABT与芳香胺、 氨基酸的功能化反应。
The reactions of polyacryloylbenzotriazole with some aromatic amines or amino-acids were discussed in this paper.
用红外光谱对镍离子印迹聚合物的结构进行表征,红外光谱研究表明聚合物中存在与模板分子相互作用的特征基团。
The structure of polymer was studied by IR spectrometry. The result indicated that some characteristic groups in the ion-imprinted polymer interacted with the template.
同样条件下,不同减水剂对粘土的影响敏感性有区别,说明在一定程度上可以通过改变聚合物的结构来改善粘土的影响。
On the same condition, effects of different water reducers on clay are different. This shows us that the effect of clay can be improved by changing the structure of the polymer to some extent.
DNA是重要的生物大分子聚合物,近年来DNA和其它一些生物聚合物的结构和弹性性质已经成为研究的热门课题之一。
DNA is an important biopolymer. In recent years, the configurations and elastic property of DNA and other biopolymers have been one of the pop researching topics.
助催化剂是烯烃配位聚合催化剂的重要组成部分。它不仅可以影响聚合活性,而且对所得聚合物的结构和性质也有明显的影响。
Activator is an important component of catalyst system for olefin coordination polymerization, which affects not only polymerization activity but also structure and property of resulting polymer.
从聚合物的结构表征及机理探讨表明:颜色突变后,体系产生了新的活性中心,催化机理发生了转变——由配位机理转变为阳离子机理。
Structure characterization and mechanism study showed that, after the color change, new active center formed and polymerization changed from coordination to cationic mechanism.
电致发光(EL)是一种研究聚合物中陷阱特性、空间电荷的存贮和输运特性、聚合物的结构转变和分子运动的重要工具,现已获得广泛应用。
Electroluminescence (el) has been widely used as a tool to study the trap character, the charge storage and transport, the structure transformation and molecular motion in insulating polymers.
众所周知,氨基断的线性聚合物(蛋白质)在溶解于水中时,会采取复杂的三维结构。
We all know that linear polymers of amino acids (proteins) adopt complex three-dimensional structures when they are dissolved in water.
这种电路的基板材料也非常平滑,在这个电路的下次是由聚合物-金属-聚合物这种类似三明治的夹心结构组成的。
The backing material must be as smooth as possible, and the circuitry sealed beneath a layer composed of a polymer-metal-polymer sandwich.
这种电路的基板材料也非常平滑,在这个电路的下次是由聚合物-金属-聚合物这种类似三明治的夹心结构组成的。
The backing material must be as smooth as possible, and the circuitry sealed beneath a layer composed of a polymer-metal-polymer sandwich.
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