光谱学与光谱分析 |
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Multi-Spectroscopy Applied to Study Blue Gel Pen Inks |
ZHANG Xu-dong1, HUANG Ling-xiong1, LIN Xiang2, PENG Qi1, CHEN Rui-ping1*, ZHANG Chao-he2, HUANG Zi-xiang1, LIN Xuan1, DU Shao-wu1 |
1. State Key Lab of Structural Chemistry, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences, Fuzhou 350002, China 2. Forensic Science Technology Institute, Public Security Bureau of Fujian Province, Fuzhou 350001, China |
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Abstract Multi-spectroscopy, such as FTIR, dispersive Raman spectroscopy and UV-Vis, was applied to characterize the blue gel pen inks on paper at the time in the present study. Twenty eight collected blue gel pens with different brands and serials were separated into four different classes by different absorptions or Raman shift. Composition changing of blue gel pen inks on paper during artificial ageing was studied via TD-MS as well. The advantage and disadvantage of this spectroscopy used in analyzing and identifying blue gel pen inks on paper, and the potential application in the research on relative and absolute ageing of documents were discussed.
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Received: 2008-12-12
Accepted: 2009-03-18
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Corresponding Authors:
CHEN Rui-ping
E-mail: rchen@fjirsm.ac.cn
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[1] 王世全,贾玉文. 文件制成时间鉴别方法的评价. 全国文件制成时间鉴定研讨会,山东 枣庄,2007年10月. [2] Chiavari G, Montalbani S, Prati S, et al. Journal of Analytical and Applied Pyrolysis, 2007, 80: 400. [3] Ewa Fabianska, Beata M Trzcinska. Problems of Forensic Sciences, 2001, 46(XLVI): 383. [4] Celine Weyermann, Dieter Kirsch, Cesar Costa Vera, et al. Forensic Science International, 2007, 168: 119. [5] Xu Yuanyuan, Wang Jinghan, Yao Lijuan. Forensic Science International, 2006, 162: 140. [6] Craig D Adam, Sarah L Sherratt, Vladimir L Zholobenko. Forensic Science International, 2008, 174: 16. [7] WANG Jian, SUN Su-qin, LUO Guo-an, et al(王 俭,孙素琴,罗国安,等). Chinese Journal of Analytical Chemistry(分析化学), 2000, 28(9): 1107. [8] Janina Zieba-Palus, Marcin Kunicki. Forensic Science International, 2006, 158: 164. [9] Janina Zieba-Palus, Rafal Borusiewicz, Marcin Kuniki. Forensic Science International, 2008, 175: 1. [10] Thomas Andermann, Problems of Forensic Sciences, 2001, 46(XLVI): 335. [11] http://www. sakuraofamerica. Com/History, "History of Gelly. Rroll". [12] Williams David Mazzella and Patrick Buzzini. Forensic Science International, 2005, 152: 241. [13] YU Jing, ZHANG Xin-wei, LI Ling-xia, et al(余 静,张新威,李玲霞,等). Journal of Instrumental Analysis(分析测试学报), 2006, 25: 31. [14] Liu Yizi, Yu Jing, Xie Mengxia, et al. Journal of Chromatography A, 2006, 1135: 57. [15] Kaitlin Papson, Sylwia Stachura, Luke Boralsky, et al. Journal Forensic Sciences, 2008, 53: 100.
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