利用团簇二次离子质谱和楔角进行分子深度剖析。
Molecular depth profiling with cluster secondary ion mass spectrometry and wedges.
出版信息
Anal Chem. 2010 Jan 1;82(1):57-60. doi: 10.1021/ac902313q.
Abstract
Secondary ion mass spectrometry and atomic force microscopy are employed to characterize a wedge-shaped crater eroded by 40 keV C(60)(+) bombardment of a 395 nm thin film of Irganox 1010 doped with four delta layers of Irganox 3114. The wedge structure creates a laterally magnified cross section of the film. From an examination of the resulting surface, information about depth resolution, topography, and erosion rate can be obtained as a function of crater depth in a single experiment. This protocol provides a straightforward way to determine the parameters necessary to characterize molecular depth profiles and to obtain an accurate depth scale for erosion experiments.
摘要
二次离子质谱和原子力显微镜用于表征由 Irganox 1010 掺杂的 Irganox 3114 的 40 keV C(60)(+) 轰击侵蚀的楔形凹坑,该楔形凹坑形成了薄膜的横向放大横截面。该薄膜的厚度为 395nm,其中有四个 delta 层。从对所得表面的检查中,可以在单个实验中获得有关深度分辨率、形貌和侵蚀速率的信息,这些信息作为凹坑深度的函数。该方案为确定表征分子深度分布所需的参数以及为侵蚀实验获得准确的深度标度提供了一种直接的方法。
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