Arson investigations
Detection of Ignitable Liquid Residues in Fire Debris by Using Direct Analysis in RealTime Mass Spectrometry (DART-MS)
Date Published
2024
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored
Major Chemical Compounds in the Ignitable Liquids Reference Collection and Substrate Databases
Date Published
September 2017
Publication Type
Research (Applied/Empirical),
Report (Study/Research),
Report (Grant Sponsored),
Program/Project Description
Agencies
NIJ-Sponsored
Application of Self-Organizing Maps to the Analysis of Ignitable Liquid and Substrate Pyrolysis Samples
Date Published
2018
Publication Type
Research (Applied/Empirical),
Report (Study/Research),
Report (Grant Sponsored),
Program/Project Description
Agencies
NIJ-Sponsored
The Effect of Uncertainty in Calibration Data on Burning Rate Predictions
Date Published
February 2024
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored
Model-effects on Likelihood Ratios for Fire Debris Analysis
Date Published
2018
Publication Type
Research (Applied/Empirical),
Report (Study/Research),
Report (Grant Sponsored),
Program/Project Description
Agencies
NIJ-Sponsored
The Effect of Uncertainty in Calibration Data on Burning Rate Predictions
NCJ Number
308427
Journal
Fire Safety Journal
Date Published
February 2024
Agencies
NIJ-Sponsored
Publication Link
Analyst and machine learning opinions in fire debris analysis
Date Published
2023
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored
Analyst and machine learning opinions in fire debris analysis
NCJ Number
308072
Journal
Forensic Chemistry
Date Published
2023
Agencies
NIJ-Sponsored
Publication Link
Evaluation of Uncertainty in Direct Measurement for Parameterization of Pyrolysis Models, Part I: Thermal Analysis
Date Published
December 2023
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored
Concentration of ignitable liquid residue from simulated fire debris by dynamic vapor microextraction: Sensitivity to instrument settings and debris characteristics
Date Published
September 2023
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored
Evaluation of Uncertainty in Direct Measurement for Parameterization of Pyrolysis Models, Part I: Thermal Analysis
NCJ Number
307711
Journal
Fire Safety Journal
Date Published
December 2023
Agencies
NIJ-Sponsored
Publication Link
Concentration of ignitable liquid residue from simulated fire debris by dynamic vapor microextraction: Sensitivity to instrument settings and debris characteristics
NCJ Number
307455
Journal
Forensic Chemistry
Date Published
September 2023
Agencies
NIJ-Sponsored
Publication Link
Forensic Mass Spectrometry: Scientific and Legal Precedents
Date Published
June 2023
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored
Forensic Mass Spectrometry: Scientific and Legal Precedents
NCJ Number
307309
Journal
Journal of the American Society for Mass Spectrometry
Date Published
June 2023
Agencies
NIJ-Sponsored
Publication Link
Experimental data from compartment fires with gas burner and upholstered furniture fuels
Date Published
April 2023
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored
Class-conditional feature modeling for ignitable liquid classification with substantial substrate contribution in fire debris analysis
Date Published
2015
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored
Experimental data from compartment fires with gas burner and upholstered furniture fuels
NCJ Number
307127
Journal
Data in Brief
Date Published
April 2023
Agencies
NIJ-Sponsored
Publication Link
Class-conditional feature modeling for ignitable liquid classification with substantial substrate contribution in fire debris analysis
NCJ Number
307080
Journal
Forensic Science International
Date Published
2015
Agencies
NIJ-Sponsored
Publication Link
Sampling and recovery of ignitable liquid residues (ILRs) from fire debris using capillary microextraction of volatiles (CMV) for on-site analysis
Date Published
January 2023
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored
Sampling and recovery of ignitable liquid residues (ILRs) from fire debris using capillary microextraction of volatiles (CMV) for on-site analysis
NCJ Number
306083
Journal
Journal of Forensic Sciences
Date Published
January 2023
Agencies
NIJ-Sponsored
Publication Link
Investigating Kinetic and Thermodynamic Approaches to Predict Evaporation of Gasoline at Elevated Temperatures for Fire Debris Applications
Date Published
2022
Agencies
NIJ-Sponsored
Convolutional Neural Network Applications in Fire Debris Classification
Date Published
September 2022
Publication Type
Research (Applied/Empirical)
Agencies
NIJ-Sponsored