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1)  compound cationic initia-tor
复合阳离子引发剂
2)  cationic photoinitiator
阳离子光引发剂
1.
A cationic photoinitiator 4,4′-diacetamidodiphenyliodonium hexafluorophosphate,which has not been reported yet,was synthesized from acetanilide and sulfuric acid in solvent acetic acid.
以乙酰苯胺为原料,乙酸为溶剂,在浓硫酸作用下,合成了未见国内外文献报道的阳离子光引发剂4,4′-二乙酰胺基二苯基碘六氟磷酸盐,其结构经IR,1HNMR,MS和UV确认。
2.
Ferrocenium tetrafluoroborate salt([CpFeCp]BF_4), as a cationic photoinitiator, was found to be able to initiate the curing of cycloaliphatic epoxide under visible lights.
以自然光为光源,茂铁型阳离子光引发剂二茂铁四氟硼酸盐([CpFeCp]BF4)可有效地引发脂环族环氧光敏体系的光固化。
3.
The cationic photoinitiator BF4 was synthesized and the photosensitivity in epoxide oligomer was studied.
制备并研究了[CpFeCp]BF4作为阳离子光引发剂在高压汞灯下引发环氧类预聚物的光引发活性。
3)  cationic photoinitiators
阳离子光引发剂
1.
With the absorption in near UV and visible light region, iron arene complexes have become a kind of efficient cationic photoinitiators.
芳茂铁盐由于其在近紫外以及可见光区的较强吸收 ,成为一类有效的阳离子光引发剂。
4)  cationic initiator
阳离子引发剂
1.
The change of two kinds of cationic initiator CD1012 and IG261 under electron beam (EB) irradiation is studied by FTIR, UV, TG and DSC.
用FTIR ,UV ,TG ,DSC等方法研究了 2种阳离子引发剂CD10 12与IG2 61在电子束(EB)辐照下的变化 。
2.
The photo initiation activity of two kinds of cationic initiators, sulphonium salts and aryl cyclopentadienylferrocenium salts, and their composites with free radical initiators has been studied in the present paper.
研究了两类阳离子引发剂复合苯基硫钅翁盐和芳茂铁盐的紫外光引发活性以及它们分别与自由基引发剂的复合体系的增强光引发活性,并讨论了强氧化剂异丙苯过氧化氢对于芳茂铁盐引发效率的促进作用以及适量多元醇对于提高阳离子固化体系交联度所起的作
5)  cationic macrophotoinitiator
阳离子大分子光引发剂
6)  free radical-cationic hybrid photoinitiators
自由基-阳离子光引发剂
1.
Five iodonium salts free radical-cationic hybrid photoinitiators were prepared by improved synthesis method from iodobenzene and diphenyl ether or diphenyl sulfide derivatives.
通过改进合成方法,以碘苯、二苯醚或二苯硫醚衍生物为原料,制备了5种碘鎓盐型自由基-阳离子光引发剂,用正交实验设计法确定了产物[4-(对苯甲酰基苯硫基)苯]苯基碘鎓六氟磷酸盐的最佳合成条件:4-苯硫基二苯甲酮2。
补充资料:阳离子-阳离子干扰
分子式:
CAS号:

性质:火焰原子吸收光谱分析中,伴生阳离子对待测阳离子测定中信号的增强或抑制。它属于化学干扰;信号增强属于增感效应,信号被抑制属于干扰效应。如测定镁时铝存在可抑制镁的信号;测定铝时钛存在,可增强铝的信号。前者由于生成难解离的MgO·Al2O3,减少了镁的基态原子;后者是钛的亲氧能力比铝强,钛夺取了氧化铝中的氧,生成氧化钛,铝从氧化铝中释放出来。

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