用于探测航天器上分子污染物的ALD生长金属氧化物膜

Q4 Engineering Journal of the IEST Pub Date : 2019-11-04 DOI:10.17764/1557-2196-62.1.1
Gugu N. Rutherford, Elaine E. Seasly, Joseph J. O’Connell, M. Thornblom, Bo Xiao, M. Bahoura
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引用次数: 0

摘要

在空间系统的组装、集成和测试过程中减轻分子污染需要定量和定性方法来检测敏感表面上分子膜的存在。原子层沉积(ALD)是在多种类型的衬底上以气相逐层沉积各种膜的自限制沉积。受控的逐层沉积使用户能够改变薄膜的取向、形态和晶粒尺寸,这直接影响光学和电子响应。在这项研究中,作者证明了在太空飞行硬件的组装、集成和测试过程中,使用ALD生长的金属氧化物薄膜与拉曼光谱仪相结合,对见证表面上的分子膜进行早期检测的能力。
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ALD-Grown Metal Oxide Films for the Detection of Molecular Contaminants on Spacecraft
Mitigating molecular contamination during the assembly, integration, and testing of space systems requires quantitative and qualitative methods to detect the presence of molecular films on sensitive surfaces. Atomic layer deposition (ALD) is a self-limiting deposit of a variety of films layer by layer in the vapor phase on multiple types of substrates. The controlled layer-by-layer deposition enables the user to change orientation, morphology, and grain size in films, which directly impacts optical and electronic responses. In this study, the authors demonstrate the ability to use ALD-grown metal oxide thin films coupled with a Raman spectrometer to provide early detection of molecular films on witness surfaces during the assembly, integration, and testing of space flight hardware.
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来源期刊
Journal of the IEST
Journal of the IEST Engineering-Safety, Risk, Reliability and Quality
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0.40
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期刊介绍: The Journal of the IEST is an official publication of the Institute of Environmental Sciences and Technology and is of archival quality and noncommercial in nature. It was established to advance knowledge through technical articles selected by peer review, and has been published for over 50 years as a benefit to IEST members and the technical community at large as as a permanent record of progress in the science and technology of the environmental sciences
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