1) Ionic compound
离子型化合物
1.
A novel ionic compound [Fe(CN)6(PhCH2NC9H7)4 KCl·H2O]·5H2O has been synthesized and structurally determined by IR,element analysis and X-ray diffraction,and the electrochemical properties of the complex were measured by cyclic voltammetry.
合成了一个新的离子型化合物[Fe(CN)6。
2) Cationicpolymer
阳离子型高分子化合物
3) ion (ionic compound)
离子(离子化合物)
4) ionic organotin compound
离子型有机锡化合物
1.
This paper reviews advances in organotin complexes with their antitumor activity in recent years,especially two kinds of new organotin,ionic organotin compound and organotin carboxylate compound,and we also look forward their future development.
介绍了近年来国内外有机锡化合物在抗癌活性方面的研究进展,尤其是离子型有机锡化合物和含有N原子的有机锡羧酸酯类化合物,并对其发展前景进行了展望。
2.
A novel ionic organotin compound {[Ph2Sn]2[2,6-Py(CO2)]3H2O}2 [HNEt3]2+ was synthesized by the reaction of Ph3SnCl with 2,6-pyridine dicarboxylic acid in 1:1 molar ratio in the presence of an organic base Et3N.
利用三苯基氯化锡和2,6-吡啶二甲酸在三乙胺存在下以1:1摩尔比反应,合成了离子型有机锡化合物{[ph2Sn]2[2,6-Py(Co2)]3H2O}2-[HNEt3]2+。
3.
This paper reviews recent advances in ionic organotin compounds.
介绍了离子型有机锡化合物的分类及其合成方法 ,并对某些化合物表现出来的半导体性能、抗肿瘤活性、催化性能以及在合成方法上的应用进行了探讨 。
5) ionic organometal compounds
离子型有机金属化合物
1.
This short paper reviewed the recent research progresses of catalysts for esterification, including heteropolyacid, solid superacid, metallic salt and oxide, enzyme, phase-transfer and ionic organometal compounds.
概述了近年来在有机酸酯化反应中催化剂的开发研究和应用现状,包括杂多酸催化剂,固体超强酸催化剂,生物酶催化剂,相转移催化剂,金属氧化物及盐类、离子型有机金属化合物催化剂等。
6) dicationic ionic compound
双阳离子型化合物
1.
Four chlorides of pyridine-based dicationic ionic compounds were synthesized by N-alkylation of pyridine with dihalogenated hydrocarbons,and then by exchange of the anion with silver nitrate,the corresponding four nitrates of the ionic compounds were obtained.
结果表明,这8种双阳离子型化合物的溶解性相似,易溶于极性溶剂,难溶于非极性溶剂。
补充资料:离子缔合配位化合物
分子式:
CAS号:
性质:金属离子与配位体配合生成带电(正或负)配位离子,它再与带异性电荷的离子以静电引力的作用结合成的不带电化合物。可表示为[MLn]-[R]+(+、-号可以互换,可以省略)。如在盐酸(HCl)介质中,金属Fe3+离子与配位体Cl-生成络阴离子FeCl4-,乙醚在此条件下生成带正电荷的阳离子(C2H5)2OH+,它们之间互相缔合生成[FeCl4]-[C2H5OH]+缔合物。离子缔合配位化合物在萃取分离方法中广泛应用。
CAS号:
性质:金属离子与配位体配合生成带电(正或负)配位离子,它再与带异性电荷的离子以静电引力的作用结合成的不带电化合物。可表示为[MLn]-[R]+(+、-号可以互换,可以省略)。如在盐酸(HCl)介质中,金属Fe3+离子与配位体Cl-生成络阴离子FeCl4-,乙醚在此条件下生成带正电荷的阳离子(C2H5)2OH+,它们之间互相缔合生成[FeCl4]-[C2H5OH]+缔合物。离子缔合配位化合物在萃取分离方法中广泛应用。
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