1) charge-transfer complex salt
电荷转移络合盐
2) charge transfer complex
电荷转移络合物
1.
The multifunction initiator was formed in-situ from the charge transfer complex system consisting of diphenylmethane bismaleimide and styrene, in the presence of 1-phenylethyl bromide as initiator and CuBr/2,2'-bipyridine as catalyst system.
引发二苯甲烷双马来酰亚胺/苯乙烯电荷转移络合物体系就地优先生成多官能团引发剂,再引发苯乙烯聚合。
2.
The result showed that CA-NMIm charge transfer complex (CTC) was formed, and the molar ratio of the CTC was 1∶1 (CA∶NMIm).
研究了四氯苯醌 (CA)与N 甲基咪唑 (NMIm)在CH2 Cl2 中的基态作用 ,结果表明二者反应形成CA与NMIm的摩尔比为 1∶1的电荷转移络合物 (CTC) ,并采用UV Vis、IR、及NMR进行了表征。
3.
The application of charge transfer complex in pharmaceuticals analysis in recent years is reviewed in this paper with 21 references.
综述了电荷转移络合物在药物定量分析方面的应用,包括反应的条件、机理等。
3) CTC
电荷转移络合物
1.
Formation of CTC by 2-chloro-5-methoxyl-p-benzoquinone and tertiary amines in acetonitrile;
胺与2-氯-5-甲氧基对苯醌在乙腈中形成电荷转移络合物的研究
2.
Exploration of the Structure of CTC Formed by Unsaturated Acid Anhydrides and Phenothiazine;
不饱和酸酐-吩噻嗪电荷转移络合物结构的探讨
3.
Besides,UV spectra characterized CTC of MAH/St and graft principal was studied.
研究了有氧条件下,以二苯甲酮(BP)为光敏引发剂,马来酸酐(M AH)/苯乙烯(S t)电荷转移络合物(CTC)体系为双单体体系,经紫外光照射,在聚酯(PET)薄膜表面进行的薄液相接枝反应。
4) charge-transfer complex
电荷转移络合物
1.
This paper introduces the concept,character,category and formation mechanism of charge-transfer complex and its application in pharmaceutical and biomedicin
介绍了电荷转移络合物概念、特点、分类、形成机制及在生物医药方面的应用。
2.
:The complex constants of the charge-transfer complex formed by styrene and diethyl-2, 3-dicyano-2, 3-di(p, m-dimethoxylphenyl) succinate or acrylonitrile, have been measured on the range of UV by means UV/Vis, with CHCl 3 as solvent.
利用紫外 /可见光谱在紫外波长范围内 ,以 CHCl3为溶剂 ,测定了苯乙烯与 2 ,3-二氰基 - 2 ,3-二 (对 ,间 -二甲氧基苯 )丁二酸二乙酯或丙烯腈形成的电荷转移络合物的络合常数 ,根据结构不同的分子之间的相互作用可以说明实验结果 。
5) charge transfer complexes
电荷转移络合物
1.
Inhibition effect of methyl methacrylate polymerization by teramethoxylbenzoquinone amine charge transfer complexes;
四甲氧基苯醌与胺类电荷转移络合物对甲基丙烯酸甲酯阻聚反应
2.
Characterization of the charge transfer complexes of fullerene have been studied by nanosecond laser photolysis.
通过毫微秒激光光解作用研究了富勒烯[60]电荷转移络合物的特性。
3.
The spectra of charge transfer complexes(CTC) formed between 10,10′ dialkyl 9,9′ biacridinium nitrates(and other anion salts) and potassium p substituted phenolates in acetonitrile were measured spectrophotometrically.
对位取代酚钾与10′10′-二烃基-9,9′-联二啶盐电荷转移光谱的研究宋化灿**英柏宁郑祥礼(中山大学化学系,广州510275)关键词硝酸10,10′-二烃基-9,9′-联二啶盐,对位取代酚钾,电荷转移络合物,电子亲合能10,10′。
6) charge-transfer salt
电荷转移盐
1.
Synthesis and characterization of new-type charge-transfer salts based on basic dye and tungstophosphoric acid;
碱性染料与磷钨酸形成的新型电荷转移盐的制备与表征
2.
A charge-transfer salt was synthesized with 12-molybdophosphoric acid and pyridine in aqueous solution.
以12-钼磷酸和吡啶为原料合成了一种电荷转移盐。
3.
An charge-transfer salt _3··1.
以磷钼酸和N,N-二甲基苯胺为原料合成了一种有机-无机电荷转移盐[C6H5(CH3)2NH]3·[PMo12O40]·1。
补充资料:含水络合离子的电荷强度的标度值(ξ)
含水络合离子的电荷强度的标度值(ξ) 设任意元素的离子在水中所表现的"离子半径(rw)",与无水的"赤裸裸"的离子半径(r0)间有很大差别,由于前者亲和了大量的水分子,所以rw>r0,因此某种离子的电荷比为:
,但是在生命体内所有离子都有不同的电负性(x),因此一个离子对外的亲电性总是表现为,上式中ξ值称为某一种离子含水络合状态的"电荷标度值"。
生命催化激活动力元素群
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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