Application of Passive Headspace Concentration in the Analysis of Ignitable Liquid Residues in Fire Debris
摘 要
综述了静态顶空富集技术在火场易燃液体残留物分析方面的应用研究进展,重点介绍了吸附剂静态顶空富集与固相微萃取等技术的创新性研究成果,并对其发展方向与应用前景做出展望(引用文献60篇)。
Abstract
An overview on current progress of the applications of passive headspace concentration for the analysis of ignitable liquid residues in fire debris was given, focusing on the innovative research results of adsorbent-based passive headspace concentration and solid-phase microextration. The prospects of passive headspace concentration were also discussed (60 ref. cited).
中图分类号 O652.6 DOI 10.11973/lhjy-hx201712028
所属栏目 综述
基金项目 国家科技支撑计划项目(2015BAK40B03;2015BAK16B00)
收稿日期 2016/12/30
修改稿日期
网络出版日期
作者单位点击查看
备注张晓琼(1990-),女,河南驻马店人,助理研究员,博士,研究方向为新型分离技术
引用该论文: ZHANG Xiaoqiong,WANG Tong,WANG Peiyi. Application of Passive Headspace Concentration in the Analysis of Ignitable Liquid Residues in Fire Debris[J]. Physical Testing and Chemical Analysis part B:Chemical Analysis, 2017, 53(12): 1476~1482
张晓琼,汪彤,王培怡. 静态顶空富集技术在火场易燃液体残留物分析中的应用[J]. 理化检验-化学分册, 2017, 53(12): 1476~1482
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参考文献
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【12】ASTM E1386-10 Standard practice for separation of ignitable liquid residues from fire debris samples by solvent extraction[S].
【13】ASTM E1388-12 Standard practice for sampling of headspace vapors from fire debris samples[S].
【14】ASTM E1385-00 Standard practice for separation and concentration of ignitable liquid residues from fire debris samples by steam distillation[S].
【15】ASTM E1412-12 Standard practice for separation of ignitable liquid residues from fire debris samples by passive headspace concentration with activated charcoal[S].
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【37】SOUZA-SILVA É A, REYES-GARCÉS N, GÓMEZ-RÍOS G A, et al. TrAC Trends Anal Chem[J], 2015,71:249-264.
【38】PIRI-MOGHADAM H, AHMADI F, PAWLISZYN J. TrAC Trends Anal Chem[J], 2016,85:133-143.
【39】FURTON K G, BRUNA J, ALMIRALL J R. J High Resolut Chromatogr[J], 1995,18:625-629.
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【41】FURTON K G, ALMIRALL J R, BI M, et al. J Chromatogr A[J], 2000,885:419-432.
【42】FURTON K G, WANG J, HSU Y L, et al. J Chromatogr Sci[J], 2000,38:297-306.
【43】YOSHIDA H, KANEKO T, SUZUKI S. J Forensic Sci[J], 2008,53(3):668-676.
【44】MIKUMA T, KANEKO T. Forensic Sci Int[J], 2010,198(1/2/3):79-84.
【45】KABIR A, HOLNESS H, FURTON K G, et al. TrAC Trends Anal Chem[J], 2013,45:264-279.
【46】LLOYD J A, EDMISTON P L. J Forensic Sci[J], 2003,48(1):1-5.
【47】ALMIRALL J R, WANG J, LOTHRIDGE K, et al. J Forensic Sci[J], 2000,45(2):453-461.
【48】MARTÍN-ALBERCA C, GARCÍA-RUIZ C, DELÉMONT O. J Sep Sci[J], 2015,38:3218-3227.
【49】ALMIRALL J R, BRUNA J, FURTON K G. Sci Justice[J], 1996,36(4):283-287.
【50】MONFREDA M, GREGORI A. J Forensic Sci[J], 2011,56(2):372-380.
【51】TANKIEWICZ M, MORRISON C, BIZIUK M. Microchem J[J], 2013,108:117-123.
【52】FETTIG I, KRÜGER S, DEUBEL J H, et al. J Forensic Sci[J], 2014,59(3):743-749.
【53】KRÜGER S, DEUBEL J H, WERREL M, et al. Fire Mater[J], 2015,39(7):636-646.
【54】AHMAD U K, YACOB A R, SELVARAJU G. Malays J Anal Sci[J], 2008,12(1):32-38.
【55】AMINI R, ROUHOLLAHI A, ADIBI M, et al. J Chromatogr A[J], 2011,1218(1):130-136.
【56】GALLIDABINO M, ROMOLO F S, WEYERMANN C. Anal Bioanal Chem[J], 2015,407(23):7123-7134.
【57】HEVIA K, CASTRO R, NATERA R, et al. Chromatographia[J], 2016,79(11/12):763-771.
【58】CACHO J I, CAMPILLO N, ALISTE M, et al. Forensic Sci Int[J], 2014,238:26-32.
【59】THEIS A L, WALDACK A J, HANSEN S M, et al. Anal Chem[J], 2001,73(23):5651-5654.
【2】邓震宇,田桂花,范子琳.理化检验-化学分册[J], 2008,44(7):624-626.
【3】STAUFFER E. J Forensic Sci[J], 2006,51(5):1016-1032.
【4】GAMBREL A K, REARDON M R. J Forensic Sci[J], 2008,53(6):1372-1380.
【5】STAUFFER É, LENTINI J. J Forensic Sci Int[J], 2003,132(1):63-67.
【6】RENDLE D F. Chem Soc Rev[J], 2005,34(12):1021-1030.
【7】PERT A D, BARON M G, BIRKETT J W. J Forensic Sci[J], 2006,51(5):1033-1049.
【8】LENTINI J J. J Forensic Sci[J], 2008,53(4):1012-1012.
【9】SANDERCOCK P M L. Forensic Sci Int[J], 2008,176:93-110.
【10】MARTÍN-ALBERCA C, ORTEGA-OJEDA F E, GARCÍA-RUIZ C. Anal Chim Acta[J], 2016,928:1-19.
【11】SNOW N H, SLACK G C. TrAC Trends Anal Chem[J], 2002,21(9/10):608-617.
【12】ASTM E1386-10 Standard practice for separation of ignitable liquid residues from fire debris samples by solvent extraction[S].
【13】ASTM E1388-12 Standard practice for sampling of headspace vapors from fire debris samples[S].
【14】ASTM E1385-00 Standard practice for separation and concentration of ignitable liquid residues from fire debris samples by steam distillation[S].
【15】ASTM E1412-12 Standard practice for separation of ignitable liquid residues from fire debris samples by passive headspace concentration with activated charcoal[S].
【16】ASTM E2154-15 Standard practice for separation and concentration of ignitable liquid residues from fire debris samples by passive headspace concentration with solid phase microextraction (SPME)[S].
【17】ASTM E1413-13 Standard practice for separation of ignitable liquid residues from fire debris samples by dynamic headspace concentration[S].
【18】GIANG Y S, CHANG W T, WANG S M, et al. Forensic Sci J[J], 2003,2:19-26.
【19】NICHOLS J E, HARRIES M E, LOVESTEAD T M, et al. J Chromatogr A[J], 2014,1334:126-138.
【20】邓震宇,鲁志宝,田桂花,等.火灾调查与分析[J], 2004,23(4):404-406.
【21】DARRER M, JACQUEMET-PAPILLOUD J, DELÉMONT O. Forensic Sci Int[J], 2008,175(2/3):171-178.
【22】MONTANI I, COMMENT S, DELEMONT O. Forensic Sci Int[J], 2010,194(1/2/3):115-124.
【23】MULLER D, LEVY A, SHELEF R. Forensic Sci Int[J], 2011,206(1/2/3):150-154.
【24】MULLER D, LEVY A, SHELEF R. Fire Technol[J], 2012,50(2):393-402.
【25】COULSON S, MORGAN-SMITH R, MITCHELL S, et al. Forensic Sci Int[J], 2008,175(1):44-54.
【26】SCHWENK L M, REARDON M R. J Forensic Sci[J], 2009,54(4):874-880.
【27】KUK R J, SPAGNOLA M V. J Forensic Sci[J], 2008,53(5):1123-1129.
【28】SMALE T, ARTHUR I, ROYDS D. Aust J Forensic Sci[J], 2013,46(2):216-223.
【29】PIERRE K A S, DESIDERIO V J, HALL A B. Forensic Sci Int[J], 2014,240:137-143.
【30】RODGERS C L, ST PIERRE K A, HALL A B. Forensic Sci Int[J], 2014,240:144-150.
【31】MASSEY D, PASQUIER E D, LENNARD C. Can Soc Forensic Sci J[J], 2002,35(4):195-208.
【32】FABRIZI G, FIORETTI M, ROCCA L M. Anal Bioanal Chem[J], 2013,405(2/3):961-976.
【33】FERREIRO-GONZÁLEZ M, AYUSO J, ALVAREZ J A, et al. Talanta[J], 2015,142:150-156.
【34】BORUSIEWICZ R, ZIEBA-PALUS J. J Forensic Sci[J], 2007,52(1):70-74.
【35】SOUZA-SILVA É A, JIANG R F, RODRÍGUEZ-LAFUENTE A, et al. TrAC Trends Anal Chem[J], 2015,71:224-235.
【36】SOUZA-SILVA É A, GIONFRIDDO E, PAWLISZYN J. TrAC Trends Anal Chem[J], 2015,71:236-248.
【37】SOUZA-SILVA É A, REYES-GARCÉS N, GÓMEZ-RÍOS G A, et al. TrAC Trends Anal Chem[J], 2015,71:249-264.
【38】PIRI-MOGHADAM H, AHMADI F, PAWLISZYN J. TrAC Trends Anal Chem[J], 2016,85:133-143.
【39】FURTON K G, BRUNA J, ALMIRALL J R. J High Resolut Chromatogr[J], 1995,18:625-629.
【40】STEFFEN A, PAWLISZYN J. Anal Commun[J], 1996,33:129-131.
【41】FURTON K G, ALMIRALL J R, BI M, et al. J Chromatogr A[J], 2000,885:419-432.
【42】FURTON K G, WANG J, HSU Y L, et al. J Chromatogr Sci[J], 2000,38:297-306.
【43】YOSHIDA H, KANEKO T, SUZUKI S. J Forensic Sci[J], 2008,53(3):668-676.
【44】MIKUMA T, KANEKO T. Forensic Sci Int[J], 2010,198(1/2/3):79-84.
【45】KABIR A, HOLNESS H, FURTON K G, et al. TrAC Trends Anal Chem[J], 2013,45:264-279.
【46】LLOYD J A, EDMISTON P L. J Forensic Sci[J], 2003,48(1):1-5.
【47】ALMIRALL J R, WANG J, LOTHRIDGE K, et al. J Forensic Sci[J], 2000,45(2):453-461.
【48】MARTÍN-ALBERCA C, GARCÍA-RUIZ C, DELÉMONT O. J Sep Sci[J], 2015,38:3218-3227.
【49】ALMIRALL J R, BRUNA J, FURTON K G. Sci Justice[J], 1996,36(4):283-287.
【50】MONFREDA M, GREGORI A. J Forensic Sci[J], 2011,56(2):372-380.
【51】TANKIEWICZ M, MORRISON C, BIZIUK M. Microchem J[J], 2013,108:117-123.
【52】FETTIG I, KRÜGER S, DEUBEL J H, et al. J Forensic Sci[J], 2014,59(3):743-749.
【53】KRÜGER S, DEUBEL J H, WERREL M, et al. Fire Mater[J], 2015,39(7):636-646.
【54】AHMAD U K, YACOB A R, SELVARAJU G. Malays J Anal Sci[J], 2008,12(1):32-38.
【55】AMINI R, ROUHOLLAHI A, ADIBI M, et al. J Chromatogr A[J], 2011,1218(1):130-136.
【56】GALLIDABINO M, ROMOLO F S, WEYERMANN C. Anal Bioanal Chem[J], 2015,407(23):7123-7134.
【57】HEVIA K, CASTRO R, NATERA R, et al. Chromatographia[J], 2016,79(11/12):763-771.
【58】CACHO J I, CAMPILLO N, ALISTE M, et al. Forensic Sci Int[J], 2014,238:26-32.
【59】THEIS A L, WALDACK A J, HANSEN S M, et al. Anal Chem[J], 2001,73(23):5651-5654.
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