光谱学与光谱分析 |
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Application of IR in the Field of Evidence Identification |
YU Jing1*, ZHANG Yun1, PANG Song-ying2, WANG Ji-fen2 |
1. Beijing Forensic Science Institute,Beijing 100054,China 2. Anti-Smuggling Bureau of Shenzhen Custom, Shenzhen 518001, China 3. Chinese People’s Public Security University,Beijing 100038,China |
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Abstract In the process of evidence identification, detecting chemical composition of evidence with instrumental analysis techniques will help get more information relevant to the case quickly and accurately, while the commonly used techniques are chromatography, mass spectrometry and spectroscopy techniques. Forensic science laboratory relates to the identification of evidence from a wide range of complex situations, we need to decide what kind of analytical methods according to the type of physical evidence and instrument characteristics. For example, with the advantages of high resolution, high sensitivity, and strong ability to analysis; gas chromatography-mass spectrometry is often used to detect evidence of fire scene such as flammable liquids. The more common scenarios of the application in forensic science laboratory is related to the case of various organic certificate (ink, paint, plastic, etc.) and inorganic (mineral, inorganic fillers, etc.) for quick and efficient analysis. Infrared spectroscopy is one of the most effective conventional analysis methods to identify and determine the molecular structure of the compound, whihc is especially widely used in the field of forensic science evidence identification. The infrared spectroscopy technique can be used to determine the type of evidence, which also serves as an effective means of test; the test results can offer evidence to the court to settle a lawsuit. This paper reviewed the application status and latest research advances of infrared spectroscopy technique in forensic document examination, oil test, plastic test, paint inspection, fiber inspection, common areas of drugs and other evidence examination, and prospected infrared spectroscopy technology in the field of evidence identification, from a practical point of view to provide infrared spectroscopy research profile for the scientific research personnel.
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Received: 2015-09-01
Accepted: 2016-01-20
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Corresponding Authors:
YU Jing
E-mail: jingyu28cn@126.com
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[1] WU Jin-guang(吴瑾光). Modern Fourier Transform Infrared Spectroscopy and Its Application(近代傅里叶变换红外光谱技术及应用). Beijing: Science and Technology Literature Press(北京: 科学技术文献出社),1994. [2] FEN Ji-min (冯计民). Application of Infrared Spectroscopy in the Analysis of Trace Material Evidence(喉外光谱在微量物证分析中的应用). Beijing: Chemical Industry Press(北京: 化学工业出版社),2010. [3] ZHU Xiao-li(褚小立). Molecular Spectroscopy Analytical Technology Combined with Chemometrics and Its Applications(化学计量学方法与分子光谱分析技术). Beijing: Chemical Industry Press(北京: 化学工业出版社),2011. [4] XIE Peng,LUO Qiong,LI Biao,et al(谢 朋,罗 琼,李 彪,等). Journal of Chinese People’s Public Security University·Science and Technology(中国人民公安大学学报·自然科学版),2009,3: 6. [5] Sik N Y, Sook P J, Yeonhee L, et al. Journal of Forensic Sciences, 2014, 59(3):805. [6] Lü Jungang,Zhang Wen,Feng Jimin, et al. Analytical Letters,2014,47(8):1399. [7] LIU Meng,YU Jing,WANG Ji-fen(刘 猛, 余 静, 王继芬) . Chemistry(Huaxue Tongbao)(化学通报), 2013, 76(7):616. [8] Tnase I G, Udri瘙塂tioiu F M, Bunaciu A A, et al. Applied Spectroscopy Reviews, 2012,47(6):494. [9] ZHANG Jin-zhuang(张金庄). Journal of Liaoning Police Academy(辽宁警专学报),2014,1:65. [10] MENG Zhao-yang(孟朝阳). Chinese Journal of Spectroscopy Laboratory(光谱实验室),2009,26(6):1585. [11] XU Xiu-ming,ZHANG Jin-zhuang,LI Guo-ping,et al(徐秀明,张金庄,李国平,等). Journal of Liaoning Police Academy(辽宁警专学报),2010,(5):67. [12] CHEN Jian-mei(陈建梅). Synthetic Technology and Application(合成技术及应用),2003,18(2): 49. [13] ZHANG Jian-chun(张建春). Fourth National Symposium on Trace Evidence Examination Compilation of Papers(第四届全国微量物证检验学术交流会论文汇编). Beijing: Police Education Press(北京:警官教育出版社),1999. 371. [14] Reffner John, Smith Shay, Adar Fran. FT-IR Technology For Today’s Spectroscopists,2010,8:14. [15] Brinsko Kelly M. Journal of Forensic Science,2010,55(4):922. [16] WU Jian-jian,SUN Guo-jun ,XIE Wei-bin ,et al(吴俭俭,孙国君,谢维斌,等). Silk(丝绸),2013, 50: 33. [17] XU Peng,CAO Zhen-nian,SHI Hui-xia,et al(徐 鹏,曹珍年,石慧霞,等). Forensic Science and Technology(刑事技术),2011,4: 50. [18] LIU Dong-xian,YAO Hui-fang,XU Yuan-qing(刘冬娴,姚慧芳,徐远清). Analysis of Trace Material Evidence and Toxic Drugs(微量物证与毒物毒品分析). Beijing: Chinese People’s Public Security University Press(北京: 中国人民公安大学出版社),2013. [19] XU Peng,CAO Zhen-nian,QIAN Zhen-hua,et al(徐 鹏,曹珍年,钱振华,等). Chinese Journal of Drug Dependence(中国药物依赖性杂志),2010,19(6):496. [20] CAO Huai,LU Fan,LI Hong,et al(曹 槐,路 帆,李 虹,等). Computers and Applied Chemistry(计算机与应用化学),2009,26(3):291. [21] Hughes Juanita,Ayoko Godwin,Collett Simon,et al. Plos One, 2013,8(7): 7. [22] CHAI Zhi-yong,LIU Xiao-lei,FENG Ji-min(柴智勇,刘效磊,冯计民). Electronic Measurement Technology(电子测量技术),2014,34(7): 129. [23] SUN Zhen-wen,QUAN Yang-ke,TAO Ke-ming(孙振文,权养科,陶克明). Forensic Science and Technology(刑事技术),2011,3: 9. [24] Wright D M, Bradley M J, Mehltretter A H. Forensic Science International ,2011, 209:95. [25] Ziba-Palus Janina, Trzcińska Beata M. Journal of Forensic Science,2013,58(5):1363. [26] Chan Kar Weng, Tan Guan Huat, Wong Richard C S. Spectroscopy Letters,2011,(44): 440. [27] Kerr T J, Duncan K L, Myers L. Vibrational Spectroscopy, 2013,68:235. [28] Mou Y, Wayne R J. Journal of Forensic Science,2009,54(4):850. [29] LIU Yang-qing,ZHAO Ping,WANG Xiu-wen,et al(刘养清,赵 平,王秀文,等). Collection of 2008 China Mechanical Engineering Society Annual Meeting and Gansu Province Academic Annual Meeting(2008年中国机械工程学会年会暨甘肃省学术年会文集),2008. 127. [30] CHEN Yu-xiao,XIAN Yang,MA Teng-zhou,et al(程欲晓,咸 洋,马腾洲,等). Physical Testing and Chemical Analysis(Part B: Chem. Anal.)(理化检验-化学分册),2013,49(12): 1409. [31] ZHANG Xiao-li(张晓莉). Journal of Guangxi University for Nationalities·Natural Science Edition(广西民族大学学报·自然科学版),2006,(9): 45. [32] WANG Jian(王 俭). Trace Evidence Analysis(微量物证分析). Beijing: Police Education Press(北京: 警官教育出版社),1998. [33] CHEN Yun-kui(陈允魁). Infrared Absorption Spectroscopy and Its Application(红外吸收光谱法及其应用). Shanghai: Shanghai Jiaotong University Press(上海:上海交通大学出版社),1993. [34] WU Guo-ping,CAI Xi-lan(吴国萍,蔡锡兰). Journal of Jiangsu Police Institute(江苏警官学院学报),2004,19(4):174. [35] DOU Yan-li,ZHANG Wan-xi,ZHANG Yu-jie,et al(窦艳丽,张万喜,张玉杰,等). Chinese Journal of Analytical Chemistry(分析化学),2006,34(11):1618. [36] Exline D L, Christie W, Claude R, et al. Journal of Forensic Science,2003,48(5):7. [37] WANG Gui-qiang(王桂强). Forensic Science and Technology(刑事技术),2004,1: 12. [38] XU Xiao-jing, HUANG Wei(许小京,黄 威). Infrared and Laser Engineering(红外与激光工程),2012,41(12):3284. [39] Bartick E,Schwartz R,Bhargava R. Proceedings of the 16th Meeting of the International Association of Forensic Sciences, 2002. 64. [40] Payne G, Wallace C, Reedy B, et al. Talanta, 2005, 67(2): 344. [41] HUANG Hong-juan,ZHENG Yi-ping,LOU Shou-song(黄红娟,郑一平,楼寿松). Forensic Science and Technology(刑事技术),2010,(4): 31. [42] FANG Lin,HUANG Hong-hai(方 林,黄红海). Chemical Engineer(化学工程师),2008,(3): 36. [43] HUANG Hao,LI Jing,QIN Zhu,et al(黄 昊,李 静,秦 竹,等). Chinese Journal of Analytical Chemistry(分析化学),2003,31(7):832. [44] ZHANG Ju-hua, ZHU Xiang-rong, LI Gao-yang, et al(张菊华,朱向荣,李高阳,等). Chinese Journal of Analytical Chemistry(分析化学),2011,39(5):752. [45] SU Dong-lin, ZHANG Xin, LI Gao-yang, et al(苏东林,张 欣,李高阳,等). Chinese Food Journal(中国食品学报),2013,13(10):221. [46] LIU Yu-fei,WANG Fang-fang,HUANG Cai-juan,et al(刘玉飞,王方方,黄彩娟,等). Shanghai Plastic(上海塑料),2014,1:13. [47] Bunaciu A A, Serban Fleschin, Aboul-Enein H Y. Current Analytical Chemistry,2014,10:139. |
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