它能产生多电荷离子。
所用的公式和计算程序可以推广应用于任何一个多电荷离子,因而具有一定的普适性。
The formulae and computational programme can be extended to the application for any other multi charge ion cases, so there is certain universality.
根据MEVVA离子源产生多电荷态银离子的特点,讨论了本实验研究的结果,并与文献的结果进行了比较。
According to the features of the MEVVA ion source which produces multiple charged silver ions, the present results are discussed and compared with those from literatures.
分别给出了这三种金属离子产生的多电荷态束流峰谱图,以及实验的一些其它现象及结果,并对其进行了讨论与总结。
This paper presents the spectrums of the production of these three kinds of metallic ions as well as some phenomena and analysis on the oven heating experiment.
比较发现,茂环上的取代基越大越有利于二茂铁基阳离子与多阴离子之比小的电荷转移盐的形成。
The experiments show that large substituent group on Cp is favorable to the formation of CTSs with low ratio of ferrocenyl:POM.
比较发现,茂环上的取代基越大越有利于二茂铁基阳离子与多阴离子之比小的电荷转移盐的形成。
The experiments show that large substituent group on Cp is favorable to the formation of CTSs with low ratio of ferrocenyl:POM.
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