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Fingerprints are incredibly difficult to retrieve from metallic surfaces and disintegrate after a fortnight.

Adam Long, undergraduate programme coordinator for forensic science at the University of Derby

 

Researchers have developed a breakthrough identification technique which helps develop fingermarks after prolonged periods of time.

Up until now, fingerprint techniques used by forensic scientists have always found metal surfaces such as knives and firearms very challenging.

Now, a team of researchers from the University of Derby and the University of Nottingham, have developed an approach that uses a technique which is capable of revealing fingerprint ridge detail that is exceptionally clear and can be analysed up to 26 days after deposition.

This raises the possibility of being able to reliably uncover fingerprints on surfaces previously thought to be devoid of such crucial evidence.

Adam Long, Undergraduate Programme Coordinator for Forensic Science at the University of Derby, said: “This revolutionary system is the first of its kind.

“Fingerprints are incredibly difficult to retrieve from metallic surfaces. This is mainly due to physical and environmental conditions that the prints may be exposed to at the crime scene, the age of the print, as well as how the developing agents react with the surface.

“A common example of the difficulties investigators face, comes from examining fired bullet casings. The high temperatures, pressure and friction caused when a bullet is fired makes fingerprints extremely fragile and this, combined with other factors, often results in their apparent removal or obliteration. This technique is non-destructive and can be used repeatedly to image fingerprint marks without compromising their quality.”

To conduct the study, fingerprints from volunteers were put on to disks of brass, aluminium and stainless steel then they were put through the different conditions they would experience at a crime scene.

Using an Ion beam, the researchers were able to extract fingerprints in order to determine which metal surface was capable of preserving the previously undetected fingerprints.

The results showed the fingerprints developed using traditional techniques did not work nearly as well, with one showing no results at all after the 14-day experiment, unlike the new method, which yielded results up to 26 days later - the first time this has ever been done.

Dr Ian Turner, Associate Professor at the University of Derby said: “It is fantastic to see the impact that combining the expertise of leading physicists and forensic scientists has had on developing fingermarks on this challenging surface.”

This technique is of interest to the East Midland Scientific Operations Unit – Forensic Services who helped develop the conventional marks used in the study.

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