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Detection of Energetic Materials by Laser Photofragmentation/Fragment Detection and Pyrolysis/Laser-Induced Fluorescence

机译：通过激光光致碎裂/碎片检测和热解/激光诱导荧光检测含能材料

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Trace concentrations of energetic materials such as 2,4,6- trinitrotoluene (TNT), pentaerythritol tetranitrate (PETN), and hexahydro-l,3,5- tinnitro-s-triazine (RDX) are detected by laser photofragmentationlfragment detection (PF/FD) spectrometry. In this technique, a single laser operating near 227 nm photofragments the parent molecule and facilitates the detection of the characteristic NO fragment by means of its A2lr-X2 II (0,0) transitions near 227 nm. Fragment detection is accomplished by resonance-enhanced multiphoton ionization (REMPI) with miniature electrodes and by laser-induced fluorescence (LIF) with a photodetector. Experiments are also conducted in the visible region using 453.85-nm radiation for photofragmentation and fragment detection. Sand samples contaminated with PETN and RDX are analyzed by a pyrolysis/LIF technique, which involves pyrolysis of the energetic material with subsequent detection of the pyrolysis products NO and NO2 by LIF and PF/LlF, respectively, near 227 nm. Applying these techniques to the trace analysis of TNT, PETN, and RDX at ambient pressure in room air is demonstrated with limits of detection (S/ N = 3) in the range of low parts-per-billion to parts-per-million for a 20-s integration time with l0-l20 micronj of laser energy at 226.8 nm and 5 mJ at 453.85 mm An increase in detection sensitivity is projected with an increase in laser energy and an improved system design. The analytical merits of these techniques are discussed and compared to other laser-based techniques.

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Sausa, R. C. ; Swayambunathan, V. ; Singh, G.;
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年度 2001
页码 1-39
总页数 39
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Detection; Fragmentation; Photochemical reactions; Laser induced fluorescence; Laser applications; Energetic properties; Photofragment spectroscopy; Air; Molecules; Materials; Sand; Lasers; Sensitivity; Electrodes; Sampling; Pressure; Visible spectra; Space(Room); Photodetectors; Rdx; Tnt; Miniaturization; Pyrolysis; Tracer studies; Petn;

机译：检测;碎裂;光化学反应;激光诱导荧光;激光应用;能量特性;光碎片光谱;空气;分子;材料;砂;激光;灵敏度;电极;取样;压力;可见光谱;空间（室）;光电探测器; Rdx; Tnt;小型化;热解;示踪研究; petn;

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专利

1. Laser photofragmentation-fragment detection and pyrolysis-laser-induced fluorescence studies on energetic materials [J] . Vaidhianat Swayambunathan, Gurbax Singh, Rosario C. Sausa Applied optics . 1999,第30期

机译：高能材料的激光碎裂-碎片检测和热解-激光诱导的荧光研究
2. Detection of Hydrogen Peroxide Using Photofragmentation Laser-Induced Fluorescence [J] . Applied Spectroscopy . 2008,第1期

机译：光碎裂激光诱导荧光检测过氧化氢
3. Detection of Hydrogen Peroxide Using Photofragmentation Laser-Induced Fluorescence [J] . O. JOHANSSON, J. BOOD, M. ALDEN, Applied Spectroscopy: Society for Applied Spectroscopy . 2008,第1期

机译：光碎裂激光诱导荧光检测过氧化氢
4. Laser photofragmentation/fragment detection studies on energetic materials [C] . V. Swayambunathan, G. Singh, R. C. Sausa Conference on advanced sensors and monitors for process industries and the environment . 1999

机译：激光照射/碎片检测能量材料
5. Development and applications of laser-enhanced ionization, laser-induced fluorescence, and photoionization detection systems for trace detection of elements and compounds of environmental and biological significance. [D] . Elwood, Seth Aaron. 2001

机译：激光增强电离，激光诱导的荧光和光电离检测系统的开发和应用，用于痕量环境和生物学意义的元素和化合物的检测。
6. Accurate DNA Fragment Sizing by Capillary Electrophoresis with Laser-Induced Fluorescence Array for Detection of Sequence Specificity of DNA Damage [O] . Erwin V. Fundador, Dharamainder Choudhary, John B. Schenkman, -1

机译：毛细管电泳-激光诱导荧光阵列准确测定DNA片段大小以检测DNA损伤的序列特异性
7. Accurate DNA Fragment Sizing by Capillary Electrophoresis with Laser-Induced Fluorescence Array for Detection of Sequence Specificity of DNA Damage [O] . Fundador, Erwin V., Choudhary, Dharamainder, Schenkman, John B, 2008

机译：毛细管电泳-激光诱导荧光阵列准确测定DNA片段大小，以检测DNA损伤的序列特异性

Detection of Energetic Materials by Laser Photofragmentation/Fragment Detection and Pyrolysis/Laser-Induced Fluorescence

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