Following are articles published by the National Institute of Justice
Patents Generated by NIJ-Sponsored Projects
Forensic Science Research and Development Technology Working Group: Operational Requirements
Advances in Detecting and Identifying Explosives After an Attack
Two NIJ-funded studies examine new ways to analyze trace evidence in the aftermath of an explosion or bombing.
Improving Analysis of “Trace DNA” Evidence
Researchers try a new way to maximize DNA in low-yield situations and reduce costs.
The Impact of False or Misleading Forensic Evidence on Wrongful Convictions
Research has found key areas within forensic science that are associated with higher rates of wrongful convictions. Addressing them should strengthen trust in our criminal justice system.
Fast Screening of Gunshot Residue Aims to Modernize Practice
NIJ-funded researchers create unprecedented gunshot residue dataset to develop a quick, dual-detection method for gunshot residue detection.
Making Use of What’s Not Visible in Trace Evidence Examinations
Nanoparticles and other subvisible particles potentially present in nearly all trace evidence are often overlooked in forensic investigations. NIJ-supported researchers have characterized several types of particles and developed detection methods.
The National Institute of Justice — At the Forefront of Forensic Science Research
Seven Research Articles Resulting from NIJ Grants Make Forensic Chemistry's List of 25 Most Cited Papers
Microbial Communities on Skin Leave Unique Traces at Crime Scenes
Investigators in two NIJ-supported studies have demonstrated that people carry unique microbial communities on their skin, and traces of those communities, left on touched objects, can be linked to the individual.
Potential Handheld Multispectral Camera for Crime Scene Investigations
Fiber Impurities Allow for More Detailed Forensic Fluorescence Comparisons
Fiber evidence has long been an important part of criminal cases, for it can associate a suspect with a crime scene. This project details new analytical procedures that allow fiber comparisons that are more detailed than standard forensic practices.
Impression, Pattern and Trace Evidence Symposia
Linking Suspects to Crime Scenes with Particle Populations
Two researchers with a long record of research into the forensic value of very small particle populations examined cell phones, handguns, drug packaging, and ski masks from the San Diego County Sheriff’s Office to determine if such particles can make phys
Determining Where A Shoe Last Walked by Measuring "Loosely Held Particles"
Criminals track dust particles to and from virtually every crime scene, but particles on a suspect’s shoes are seldom used as evidence linking the accused to the crime. In this NIJ-supported project, researchers assert that investigators can use small par
Solving Crimes With Soil Bacteria
Identifying Ignitable Liquids in the Aftermath of a Fire
After analyzing how ignitable liquids break down because of weathering and biological degradation in the aftermath of a fire, researchers have provided new data to fire investigators and crime labs.
Forensic Identification Using Individual Chemical Signatures
By touching a cell phone, car keys, or even a pen, you are leaving behind a chemical signature that can reveal much about how you live your daily life.