TY - JOUR
T1 - The recoverability of fingerprints on non porous surfaces exposed to elevated temperatures
AU - Dominick, Ainsley J.
AU - NicDaeid, Niamh
AU - Bleay, Stephen M.
AU - Home Office Scientific Development Branch, Sandridge, UK
PY - 2011
Y1 - 2011
N2 - Previous work by the authors compared the effectiveness of ninhydrin, 1,8-diazafluoren-9-one (DFO), and physical developer (PD) as enhancement reagents for fingerprints deposited on paper that had been exposed to elevated temperatures. This research extends the previous study and investigates the recoverability of fingerprints deposited onto glass and ceramic surfaces in order to mimic the environment these surfaces may be exposed to within fire scene. This research has shown that ridge detail is still retrievable from ceramic after exposure to 800˚C (1472˚F) for 20min, although it would only survive if the fingerprints had been protected from direct exposure to radiant heat and direct air flow across the surface at temperatures in excess of 350˚C (622˚F). This investigation has shown that the most effective enhancement technique overall was found to be superglue followed by BY40 at all temperatures except 200˚C (392˚F) where iron powder suspension was superior. However, superglue followed by BY40 may have to be excluded as a prospective enhancement technique for many situations as the non porous surface may become wet during firefighting activity. The use of silver vacuum metal deposition has been demonstrated to develop fingerprints after exposure to higher temperatures and may have future potential for this application.
AB - Previous work by the authors compared the effectiveness of ninhydrin, 1,8-diazafluoren-9-one (DFO), and physical developer (PD) as enhancement reagents for fingerprints deposited on paper that had been exposed to elevated temperatures. This research extends the previous study and investigates the recoverability of fingerprints deposited onto glass and ceramic surfaces in order to mimic the environment these surfaces may be exposed to within fire scene. This research has shown that ridge detail is still retrievable from ceramic after exposure to 800˚C (1472˚F) for 20min, although it would only survive if the fingerprints had been protected from direct exposure to radiant heat and direct air flow across the surface at temperatures in excess of 350˚C (622˚F). This investigation has shown that the most effective enhancement technique overall was found to be superglue followed by BY40 at all temperatures except 200˚C (392˚F) where iron powder suspension was superior. However, superglue followed by BY40 may have to be excluded as a prospective enhancement technique for many situations as the non porous surface may become wet during firefighting activity. The use of silver vacuum metal deposition has been demonstrated to develop fingerprints after exposure to higher temperatures and may have future potential for this application.
KW - fingerprint identification
KW - forensic science
KW - forensic identification
UR - http://www.theiai.org
M3 - Article
SN - 0895-173X
JO - Journal of Forensic Identification
JF - Journal of Forensic Identification
ER -