期刊
JOURNAL OF FORENSIC SCIENCES
卷 68, 期 2, 页码 629-637出版社
WILEY
DOI: 10.1111/1556-4029.15203
关键词
capillary microextraction of volatiles (CMV); fire debris analysis; headspace extraction; ignitable liquid residues (ILRs)
A new headspace sampling method using the CMV device was demonstrated for the analysis of ILRs in fire debris, achieving fast and ultra-sensitive results. The method involves the use of a heated can for the recovery of VOCs from petroleum distillates. The heated can method showed improved mass recovery and decreased variability compared to the non-heated paper cup method.
A new, fast, and ultra-sensitive headspace sampling method using the Capillary Microextraction of Volatiles (CMV) device is demonstrated for the analysis of ignitable liquid residues (ILRs) in fire debris. This headspace sampling method involves the use of a heated can (60 degrees C) to aid in the recovery of volatile organic compounds (VOCs) from medium and heavy petroleum distillates. Our group has previously reported the utility of CMV to extract gasoline at ambient temperature in less than 5 min in the field. This work evaluates the recovery and analysis of low mass loadings (tens of ng) of VOCs from charcoal lighter fluid, kerosene, and diesel fuel. Nonane, decane, undecane, tridecane, tetradecane, and pentadecane were selected for evaluation of recovery to represent these ILR classes. The face-down heated can headspace sampling technique was compared to the previously reported, non-heated, paper cup headspace sampling technique. Mass recovery improvements of 50%-200% for five of the six target compounds in diesel fuel were achieved compared to the non-heated sampling method. The average relative standard deviation (reported as % RSD) between the replicate trials decreased from an average of 28% to 6% when using the heated can method. Ignitable liquids were spiked onto burned debris in a live burn exercise and sampled using the heated can and paper cup headspace sampling techniques. The heated sampling technique reported here, for the first time, demonstrates an effective extraction method that when coupled to a portable GC-MS instrument allows for a sampling and analysis protocol in the field in less than 30 min.
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