Raman Spectroscopy for Homeland Security Applications

G. Mogilevsky, L. Borland, M. Brickhouse, A. Fountain
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引用次数: 60

Abstract

Raman spectroscopy is an analytical technique with vast applications in the homeland security and defense arenas. The Raman effect is defined by the inelastic interaction of the incident laser with the analyte molecule’s vibrational modes, which can be exploited to detect and identify chemicals in various environments and for the detection of hazards in the field, at checkpoints, or in a forensic laboratory with no contact with the substance. A major source of error that overwhelms the Raman signal is fluorescence caused by the background and the sample matrix. Novel methods are being developed to enhance the Raman signal’s sensitivity and to reduce the effects of fluorescence by altering how the hazard material interacts with its environment and the incident laser. Basic Raman techniques applicable to homeland security applications include conventional (off-resonance) Raman spectroscopy, surface-enhanced Raman spectroscopy (SERS), resonance Raman spectroscopy, and spatially or temporally offset Raman spectroscopy (SORS and TORS). Additional emerging Raman techniques, including remote Raman detection, Raman imaging, and Heterodyne imaging, are being developed to further enhance the Raman signal, mitigate fluorescence effects, and monitor hazards at a distance for use in homeland security and defense applications.
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拉曼光谱在国土安全中的应用
拉曼光谱是一种在国土安全和国防领域有着广泛应用的分析技术。拉曼效应是由入射激光与被分析物分子的振动模式之间的非弹性相互作用定义的,它可以被用来检测和识别各种环境中的化学物质,以及在现场、检查站或与物质没有接触的法医实验室中检测危险。干扰拉曼信号的主要误差来源是由背景和样品基质引起的荧光。人们正在开发新的方法来提高拉曼信号的灵敏度,并通过改变有害物质与环境和入射激光的相互作用来减少荧光的影响。适用于国土安全应用的基本拉曼技术包括传统(非共振)拉曼光谱、表面增强拉曼光谱(SERS)、共振拉曼光谱和空间或时间偏移拉曼光谱(SORS和TORS)。其他新兴的拉曼技术,包括远程拉曼探测、拉曼成像和外差成像,正在开发中,以进一步增强拉曼信号,减轻荧光效应,并远程监测危险,用于国土安全和国防应用。
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