https://www.nist.gov/publications/extraction-ignitable-liquid-residues-dynamic-capillary-headspace-sampling-and
The primary goal for this project was to assess the value of an alternative headspace concentration method for the extraction of ignitable liquids (IL) related
ignitable liquidextractionresiduesdynamiccapillary
https://ojp.gov/ncjrs/virtual-library/abstracts/preserving-ignitable-liquid-residues-soil-using-triclosan-anti
This study examined ways to preserve ignitable liquid residues (ILRs) by sterilizing fire debris samples without interfering with their subsequent analysis.
ignitable liquidpreservingresiduessoilusing
https://www.ojp.gov/ncjrs/virtual-library/abstracts/enhanced-ignitable-liquid-and-substrate-database-functionality
This paper describes the redevelopment of National Center for Forensic Science databases focused on fire debris analysis.
ignitable liquidenhancedsubstratedatabasefunctionality
https://www.ojp.gov/library/publications/dynamic-vapor-microextraction-ignitable-liquid-casework-containers
Dynamic vapor microextraction (DVME) is a headspace concentration method that can be used to collect ignitable liquid (IL) from fire debris onto chilled...
ignitable liquiddynamicvaporcaseworkcontainers
https://www.ojp.gov/ncjrs/virtual-library/abstracts/application-self-organizing-feature-maps-analyze-relationships
In this project, the unsupervised artificial neural networks method of self-organizing feature maps (SOFMs) was applied to spectral data of ignitable liquids...
self organizingfeature mapsapplicationanalyzerelationships