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Forensic 3D Documentation of Skin Injuries
In this study, the validity of using photogrammetry for documenting injuries in a pathological context was demonstrated.
3-D Printed Dog’s Nose Improves Vapor Detection
By mimicking how dogs get their whiffs, a team of government and university researchers have demonstrated that “active sniffing” can improve by more than 10 times the performance of current technologies that rely on continuous suction to detect trace amounts of explosives and other contraband.
New Markers for Forensic Body-fluid Identification
University of Bonn researchers have successfully identified specific Micro-RNA signatures to help forensically identify body fluids.
Peer Review is in Crisis, But Should be Fixed, Not Abolished
After the time to get the science done, peer review has become the slowest step in the process of sharing studies, and some scientists have had enough.
Rapid Identification of Illicit Designer Drugs
New technique can identify commonly used illicit compounds in as little as 15 seconds.
Trace Evidence Database for Forensic Investigators
Central database aims to bring together disparate evidence logs into a common resource for forensic scientists.
Forensics is Boosting the Battle Against Wildlife Trade
From rapid genetic analysis to spectrography, the new advances in forensics offer promise in stopping the trafficking in endangered species.
3D Imaging in Forensics
New portable, user-friendly crime-scene forensics tech will take high-resolution 3-D images of shoeprints, tire tracks in snow and soil.
Identification of Individual Red Blood Cells by Raman Microspectroscopy
In this study, Raman Microspectroscopy was used to identify individual red blood cells.
A Simple Tool for Toxicological Analysis
In this study, GC-MS is used for the determination of clozapine, and five antidepressants in human plasma, serum and whole blood.
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Strategies to compare far-UV Circular Dichroism spectra of similar proteins using Chirascan™-plus Automated Circular Dichroism
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Applied Photophysics Ltd.

Due to the very low sample volumes required and the simplicity of the measurement, it is a powerful comparative tool to detect differences in structure between proteins. Here, Applied Photophysics explores two ways of analysing CD spectra taken in the far ultraviolet, that do not require quantitation of the protein concentration.

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