Uniting microscopy and spectroscopy

Q4 Chemistry

American Laboratory Pub Date : 2000-01-01 DOI:10.1201/9781482273304-4

J. Reffner

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引用次数: 19

Abstract

n axiom of materials science is that growth occurs at interfaces. This basic truth extends to the growth at the interface between microscopy and spectroscopy. Interfacing microscopy and spectroscopy has created significant growth—in new technologies, analytical research, and applications. Scanning electron microscopes with X-ray emission spectroscopy, electron microscopes with mass spectroscopy, and light microscopes with infrared spectroscopy are examples of new technologies born from uniting microscopy and spectroscopy. The evolution and growth of infrared microspectroscopy (IMS) are the subject of this paper. When microscopy and infrared spectroscopy are joined, seeing microscopic structures, analyzing molecular chemistry, and relating composition with microstructure are an advance over blindly determining average chemical composition. To d a y, it is commonplace to find a microscope attached to an infrared spectrometer. More than 4000 IMS systems are in use. Developing analytical instruments is challenging, but instruments are worthwhile only if they produce a better means and needed results. The synergism of IMS has transformed seemingly impossible infrared analyses into routine procedures. It has advanced science and created new technologies, and thousands of scientists recognize its value.

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结合显微镜和光谱学

材料科学的N公理是生长发生在界面处。这一基本真理也适用于显微镜和光谱学交界处的生长。界面显微镜和光谱学在新技术、分析研究和应用方面创造了显著的增长。结合x射线发射光谱的扫描电子显微镜、结合质谱的电子显微镜、结合红外光谱的光学显微镜等都是显微镜学和光谱学相结合而产生的新技术。红外微光谱学(IMS)的发展和发展是本文的主题。当显微技术和红外光谱技术相结合时，观察微观结构，分析分子化学，将化学成分与微观结构联系起来，比盲目地确定平均化学成分是一种进步。为了测量y，很常见的是找到一个与红外光谱仪相连的显微镜。超过4000个IMS系统正在使用中。开发分析仪器是具有挑战性的，但只有当它们产生更好的手段和所需的结果时，这些仪器才有价值。IMS的协同作用已将看似不可能的红外分析转变为常规程序。它推动了科学发展，创造了新技术，成千上万的科学家认识到它的价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

American Laboratory 工程技术-分析化学

CiteScore

0.20

自引率

0.00%

发文量

审稿时长

6-12 weeks