This webinar originally occurred on October 3, 2018 Duration: 1 hour Overview A suite of paper microfluidic devices for detecting explosives, drugs and serology has now been developed. These devices are not much larger than a postage stamp and can…
Category: Fire Debris & Ignitable Liquids (page 3)
Conference Proceedings: 2018 Impression Pattern and Trace Evidence Symposium
Date May 2018 Overview From January 22 to 25, 2018, RTI International, the National Institute of Justice (NIJ) and the Forensic Technology Center of Excellence (FTCOE) held the 2018 Impression, Pattern and Trace Evidence Symposium (IPTES) in Arlington, VA, to…
Success Story: Advancing the Forensic Analysis of Ignitable Liquid Fuel Fires
National Institute of Justice and JENSEN HUGHES Date February 2018 Overview Investigating fires with “liquid fuel” is particularly challenging, as the combustion of building materials often conceals the presence of the fuel. JENSEN HUGHES, led by Dr. Daniel Gottuk, evaluated…
2016 National Institute of Justice Forensic Science Research and Development Symposium
Date July 2016 Overview The 2016 NIJ Research and Development Symposium is intended to promote collaboration and enhance knowledge transfer of NIJ-funded research. The NIJ Research and Development (R&D) Program funds both basic or applied R&D projects that will (1)…
Conference Proceedings: 2015 Impression, Pattern, and Trace Evidence Symposium
Date December 2015 Overview This report was published in RTI Press, a global publisher of peer-reviewed, open-access publications on a broad range of topics. The areas of focus reflect RTI’s multidisciplinary research, our expertise in social and laboratory sciences, and our…
Success Story: Identifying Ignitable Liquids in Fire Debris and Providing Error Rates for Purposes of Testifying
National Institute of Justice and University of Central Florida Date November 2016 Overview Determining the presence of ignitable liquid residue among the fire debris in an arson investigation is a complicated forensic problem. Most ignitable liquids commonly encountered consist of…