triacetone-triperoxide and ethylene-glycol-dinitrate

triacetone-triperoxide has been researched along with ethylene-glycol-dinitrate* in 2 studies

Other Studies

2 other study(ies) available for triacetone-triperoxide and ethylene-glycol-dinitrate

Article	Year
Detection of explosives in hair using ion mobility spectrometry. Journal of forensic sciences, 2008, Volume: 53, Issue:3 Conventional explosives 2,4,6-trinitrotoluene (TNT), nitroglycerin (NG), and ethylene glycol dinitrate (EGDN) sorbed to hair can be directly detected by an ion mobility spectrometer (IMS) in E-mode (for explosives). Terrorist explosive, triacetone triperoxide (TATP), difficult to detect by IMS in E-mode, was detected in N-mode (for narcotics). Three modes of sample introduction to IMS vapor desorption unit were used: (i) placement of hair directly into the unit, (ii) swabbing of hair and placement of swabs (i.e., paper GE-IMS sample traps) into the unit, and (iii) acetonitrile extracts of hair positioned on sample traps and placed into the unit. TNT, NG, and EGDN were detected in E-mode by all three sample introduction methods. TATP could only be detected by the acetonitrile extraction method after exposure of the hair to vapor for 16 days because of lower sensitivity. With standard solutions, TATP detection in E-mode required about 10 times as much sample as EGDN (3.9 mug compared with 0.3 mug). IMS in N-mode detected TATP from hair by all three modes of sample introduction. Topics: Ethylene Glycols; Explosive Agents; Forensic Medicine; Hair; Heterocyclic Compounds, 1-Ring; Humans; Mass Spectrometry; Molecular Structure; Nitroglycerin; Peroxides; Trinitrotoluene	2008
Accumulation of explosives in hair. Journal of forensic sciences, 2005, Volume: 50, Issue:4 The sorption of explosives (TNT, RDX, PETN, TATP, EGDN) to hair during exposure to their vapors is examined. Three colors of hair were simultaneously exposed to explosive vapor. Following exposure of hair, the sorbed explosive was removed by extraction with acetonitrile and quantified. Results show that sorption of explosives, via vapor diffusion, to black hair is significantly greater than to blond, brown or bleached hair. Furthermore, the rate of sorption is directly related to the vapor density of the explosive: EGDN > TATP >>>TNT >> PETN > RDX. In some cases, the explosive-containing hair was subject to repeated washings with sodium dodecylsulfate or simply left out in an open area to determine the persistence of the explosive contamination. While explosive is removed from hair with time or washing, some persists. These results indicate that hair can be a useful indicator of explosive exposure/handling. Topics: Ethylene Glycols; Explosions; Forensic Medicine; Hair; Heterocyclic Compounds, 1-Ring; Humans; Pentaerythritol Tetranitrate; Peroxides; Triazines; Trinitrotoluene; Volatilization	2005

Article

Year

Detection of explosives in hair using ion mobility spectrometry.

Journal of forensic sciences, 2008, Volume: 53, Issue:3

Conventional explosives 2,4,6-trinitrotoluene (TNT), nitroglycerin (NG), and ethylene glycol dinitrate (EGDN) sorbed to hair can be directly detected by an ion mobility spectrometer (IMS) in E-mode (for explosives). Terrorist explosive, triacetone triperoxide (TATP), difficult to detect by IMS in E-mode, was detected in N-mode (for narcotics). Three modes of sample introduction to IMS vapor desorption unit were used: (i) placement of hair directly into the unit, (ii) swabbing of hair and placement of swabs (i.e., paper GE-IMS sample traps) into the unit, and (iii) acetonitrile extracts of hair positioned on sample traps and placed into the unit. TNT, NG, and EGDN were detected in E-mode by all three sample introduction methods. TATP could only be detected by the acetonitrile extraction method after exposure of the hair to vapor for 16 days because of lower sensitivity. With standard solutions, TATP detection in E-mode required about 10 times as much sample as EGDN (3.9 mug compared with 0.3 mug). IMS in N-mode detected TATP from hair by all three modes of sample introduction.

Topics: Ethylene Glycols; Explosive Agents; Forensic Medicine; Hair; Heterocyclic Compounds, 1-Ring; Humans; Mass Spectrometry; Molecular Structure; Nitroglycerin; Peroxides; Trinitrotoluene

2008

Accumulation of explosives in hair.

Journal of forensic sciences, 2005, Volume: 50, Issue:4

The sorption of explosives (TNT, RDX, PETN, TATP, EGDN) to hair during exposure to their vapors is examined. Three colors of hair were simultaneously exposed to explosive vapor. Following exposure of hair, the sorbed explosive was removed by extraction with acetonitrile and quantified. Results show that sorption of explosives, via vapor diffusion, to black hair is significantly greater than to blond, brown or bleached hair. Furthermore, the rate of sorption is directly related to the vapor density of the explosive: EGDN > TATP >>>TNT >> PETN > RDX. In some cases, the explosive-containing hair was subject to repeated washings with sodium dodecylsulfate or simply left out in an open area to determine the persistence of the explosive contamination. While explosive is removed from hair with time or washing, some persists. These results indicate that hair can be a useful indicator of explosive exposure/handling.

Topics: Ethylene Glycols; Explosions; Forensic Medicine; Hair; Heterocyclic Compounds, 1-Ring; Humans; Pentaerythritol Tetranitrate; Peroxides; Triazines; Trinitrotoluene; Volatilization

2005