利用矩阵峰绘制表面形貌：提高化学成像中的质量分辨率并增强灵敏度。

Using matrix peaks to map topography: increased mass resolution and enhanced sensitivity in chemical imaging.

作者信息

McDonnell Liam A, Mize Todd H, Luxembourg Stefan L, Koster Sander, Eijkel Gert B, Verpoorte Elisabeth, de Rooij Nico F, Heeren Ron M A

机构信息

FOM Institute for Atomic and Molecular Physics, Kruislaan 407, 1098 SJ, Amsterdam, The Netherlands.

出版信息

Anal Chem. 2003 Sep 1;75(17):4373-81. doi: 10.1021/ac034401j.

DOI:10.1021/ac034401j

PMID:14632039

Abstract

It is well known in secondary ion mass spectrometry (SIMS) that sample topography leads to decreased mass resolution. Specifically, the ion's time of flight is dependent on where it was generated. Here, using matrix-enhanced SIMS, it is demonstrated that, in addition to increasing the yield of intact pseudomolecular ions, the matrix allows the user to semiquantitatively record the topography of a sample. Through mapping the topography-related mass shifts of the matrix (which leads to decreased mass resolution), the analogous mass shifts of higher mass ions can be deconvoluted and higher resolution and greater sensitivity obtained. Furthermore, the semiquantitative topographical map obtained can be compared with any chemical images obtained, allowing the user to quickly ascertain whether local intensity maximums are due to topological features or represent genuine features of interest.

摘要

在二次离子质谱（SIMS）领域，众所周知，样品的形貌会导致质量分辨率降低。具体而言，离子的飞行时间取决于其产生的位置。在此，通过基质增强SIMS技术表明，除了提高完整准分子离子的产率外，基质还能让用户半定量地记录样品的形貌。通过绘制与形貌相关的基质质量位移图（这会导致质量分辨率降低），可以对较高质量离子的类似质量位移进行反卷积处理，从而获得更高的分辨率和更高的灵敏度。此外，所获得的半定量形貌图可以与任何化学图像进行比较，使用户能够快速确定局部强度最大值是由于拓扑特征还是代表真正感兴趣的特征。

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利用矩阵峰绘制表面形貌：提高化学成像中的质量分辨率并增强灵敏度。

Using matrix peaks to map topography: increased mass resolution and enhanced sensitivity in chemical imaging.

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