skip navigation

PUBLICATIONS

Register for Latest Research

Stay Informed
Register with NCJRS to receive NCJRS's biweekly e-newsletter JUSTINFO and additional periodic emails from NCJRS and the NCJRS federal sponsors that highlight the latest research published or sponsored by the Office of Justice Programs.

NCJRS Abstract

The document referenced below is part of the NCJRS Virtual Library collection. To conduct further searches of the collection, visit the Virtual Library. See the Obtain Documents page for direction on how to access resources online, via mail, through interlibrary loans, or in a local library.

 

NCJ Number: 221665 Find in a Library
Title: Accumulation of Explosives in Hair--Part II: Factors Affecting Sorption
Journal: Journal of Forensic Sciences  Volume:52  Issue:6  Dated:November 2007  Pages:1291-1307
Author(s): Jimmie C. Oxley Ph.D.; James L. Smith Ph.D.; Louis J. Kirschenbaum Ph.D.; Suvarna Marimganti Ph.D.
Date Published: November 2007
Page Count: 7
Sponsoring Agency: Oklahoma City National Memorial Institute for the Prevention of Terrorism (MIPT)
Oklahoma City, OK 73101
Publisher: http://www.blackwellpublishing.com/ 
Type: Report (Study/Research)
Format: Article
Language: English
Country: United States of America
Annotation: This study examined the sorption to human hair of the following eight explosives: 2,4,6-trinitrotoluene (TNT); pentaerythritol tetranitrate (PETN); hexahydro-1,3,5-trinitro-s-triazine (RDX); diacetone diperoxide (DADP); triacetone triperoxide (TATP); ethylene glycol (EGDN), nitroglycerin (NG); and 2,4-dinitrotoluene (DNT).
Abstract: The study found that the initial rate at which the explosive is sorbed to hair is relative to the vapor pressure of the explosive. Although initial uptake was rapid, much more gradual uptake continued. For TNT, uptake continued even after 2 years. In a similar experiment performed over a 4-month period, TATP sorption continued to increase with time. Microscopy suggested that hair provided nucleation sites for TATP crystal growth on the surface of the hair. Although there is a general trend for dark hair to sorb explosive more readily than light hair, sorption is a highly individual characteristic, i.e., a person whose hair sorbs TATP well will also sorb TNT well. Once sorbed, the ease with which explosive is removed from the hair depends on the type of explosive. TNT is not lost simply by standing in the open and mild extraction; it requires vigorous washing. TATP, on the other hand, an explosive with high vapor pressure, is readily lost upon standing and mild extraction. This suggests that TNT and TATP are sorbed by hair by different mechanisms. The preferential sorption of explosives by black hair over blond hair and brown hair, the preferential sorption of unbleached hair over bleached, and the preferential sorption of black hair over white hair from the same person suggest melanin is important in explosive sorption; however, wide variation in ability to sorb explosive was observed among black hair from different individuals, which suggests that sorption of explosive to hair is not strictly a matter of binding to melanin. 2 tables, 12 figures, and 18 references
Main Term(s): Police policies and procedures
Index Term(s): Explosion investigations; Explosives; Explosives tracing; Forensic sciences; Hair and fiber analysis; Investigative techniques
To cite this abstract, use the following link:
http://www.ncjrs.gov/App/publications/abstract.aspx?ID=243548

*A link to the full-text document is provided whenever possible. For documents not available online, a link to the publisher's website is provided. Tell us how you use the NCJRS Library and Abstracts Database - send us your feedback.