Collection and analysis of fire debris evidence to detect methamphetamine, pseudoephedrine, and ignitable liquids in fire scenes at suspected clandestine laboratories-Reference-Cited by-同舟云学术

Collection and analysis of fire debris evidence to detect methamphetamine, pseudoephedrine, and ignitable liquids in fire scenes at suspected clandestine laboratories

Published:2017-06 Issue: Volume:4 Page:82-88
ISSN:2468-1709
Container-title:Forensic Chemistry
language:en
Short-container-title:Forensic Chemistry

Author:

Green Matthew K.,Kuk Raymond J.,Wagner Jarrad R.

Publisher

Elsevier BV

Subject

Law,Materials Chemistry,Physical and Theoretical Chemistry,Spectroscopy,Pathology and Forensic Medicine,Analytical Chemistry

Reference8 articles.

1. An evolving problem: methamphetamine production and trafficking in the United States;Shukla;Int. J. Drug Policy,2012

2. United Nations Office on Drugs and Crime, World Drug Report 2016 – Number of clandestine laboratories detected, 2011–2013. Retrieved August 19, 2016, from http://www.unodc.org/wdr2016/field/11.1._Clandestine_laboratories_detected_and_dismantled.pdf, 2016.

3. “One-pot” methamphetamine manufacture via the lithium-ammonia method with multi-ingredient, liquid, and/or soft-gel pseudoephedrine preparations;Heegel;J. Clandestine Lab. Investig.Chem. Assoc.,2006

4. Synthetic Drug Control Strategy: A Focus on Methamphetamine and Prescription Drug Abuse, DIANE Publishing, 2011.

5. Structural determination of the principal byproduct of the lithium-ammonia reduction method of methamphetamine manufacture;Person;J. Forensic Sci.,2005

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1. Interpol review of fire investigation 2016–2019;Forensic Science International: Synergy;2020

2. Novel method based on ion mobility spectrometry sum spectrum for the characterization of ignitable liquids in fire debris;Talanta;2019-07

3. Application of Headspace Gas Chromatography-Ion Mobility Spectrometry for the Determination of Ignitable Liquids from Fire Debris;Separations;2018-08-13