Identifying fingerprints on paper is a commonly used method in
police forensic work, but unfortunately it is not easy to make those
fingerprints visible. Now, scientists at the Hebrew University of Jerusalem
have developed a new approach for making such fingerprints more readily
readable.
The new method, created by a team headed by Prof. Yossi Almog and
Prof. Daniel Mandler of the Institute of Chemistry at the Hebrew University,
uses an innovative chemical process to produce a negative of the fingerprint
image rather than the positive image produced under current methods. Unlike the
latter, the Hebrew University-developed process is nearly independent of the
composition of the sweat residue left behind on the paper.
The new method is described in the current issue of the
international, English-language edition of the journal Angewandte
Chemie, published by the German Chemical Society.
In many criminal investigations, paper evidence plays an important
role, and it is useful to know who has handled such documents as checks, paper
currency, notes, etc. Studies have shown that less than half of the
fingerprints on paper items can be made sufficiently visible to enable their
identification. The main reason for this seems to be the highly variable
composition of the sweat left behind on the paper.
The new procedure developed at the Hebrew University avoids these
problems. It involves an inversion of an established method in which gold
nanoparticles are first deposited onto the invisible fingerprints, followed by
elemental silver, similar to the development of a black and white photograph.
In the conventional technique, the gold particles get stuck to the
amino acid components of the sweat in the fingerprints, and then silver is
deposited onto the gold. The result is quite often low-contrast impressions of
the fingerprints. In the new method, the gold nanoparticles stick directly to
the paper surface, but not the sweat. This technique utiliizes the sebum from
the fingerprints as a medium to avoid this interference. (Sebum is an oily
substance secreted by the sebaceous glands that helps prevent hair and skin
from drying out.) Treatment with a developer containing silver then turns the
areas with gold on them black, resulting in a clear, negative image of the
fingerprint.
"Since our method relies only on the fatty components in the
fingerprints, the sweaty aspects play no role in the imaging process,"
said Prof. Almog. This technique also promises to alleviate another problem, he
said. "If paper has become wet, it has previously been difficult to detect
fingerprints because the amino acids in the sweat, which are the primary
substrate for current chemical enhancement reactions, are dissolved and washed
away by water, whereas the fatty components are barely affected." Thus,
the avoidance of the sweat aspect provides a further enhancement for police
laboratory investigation, he observed.
Journal Reference:
1. Nimer Jaber, Adam Lesniewski, Hadar Gabizon,
Sanaa Shenawi, Daniel Mandler, Joseph Almog. Visualization of Latent
Fingermarks by Nanotechnology: Reversed Development on Paper-A Remedy to the
Variation in Sweat Composition. Angewandte Chemie International
Edition, 2012; DOI: 10.1002/anie.201205259
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