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Duration: 48 min
The way gunshot residue analysis is performed is changing. While analysts once commonly used room-filling scanning electron microscopes (SEMs), many now choose desktop SEMs for their ease of use and high performance. However, desktop SEMs have many applications in forensic and crime laboratories, and gunshot residue analysis can take several hours and prevent other SEM uses. The ideal solution is a dedicated and high-speed desktop SEM that can automatically perform gunshot analysis, such as the Thermo Scientific Phenom ParticleX GSR Desktop SEM.
In this talk we will focus on the software workflow and how to set up automated particle analysis according to ASTM standard guidelines. We will also cover instrument accuracy and outline the critical requirements when using an SEM for gunshot residue analysis.
We will also show how you can collect results from up to 30 samples in a defined recipe, scan each sample frame-by-frame, measure particle morphology at high magnification, and examine each particle for classification via EDS. Furthermore, we review why it is important to revisit the sample to confirm the chemistry of the GSR particle and how to generate a report that can be presented as solid evidence.
You’ll learn:
Rogier Miltenburg
Applications and Product Specialist, Phenom Desktop SEM, Thermo Fisher Scientific, Eindhoven, NL
Rogier is a desktop SEM applications and product specialist for forensic applications. His goal is to enable forensic labs to quickly provide accurate results by continuously improving SEM/EDX GSR analysis. To achieve this, he is constantly looking for opportunities to make GSR analysis faster, easier, and more reliable than ever.