Makromolekül Yapıda Nanomalzemeler ile Parmak İzlerinin Geliştirilmesi
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Date
2023Author
Demirkan, Yücel
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Finger and palm marks are described as the "Gold Standard of Forensic Sciences" because
they are not only one of the most common evidence in crime scene investigations but also
low cost and ensure accurate results. Being biometric evidence is also one of the most
critical advantages of palm and fingerprint. With the improvement of Automatic Palm
and Fingerprint Identification Systems (APFIS) and databases, finger and palm prints
gained crucial importance. In order to identify the perpetrator, a sample taken from a
crime scene needs to be compared with a sample to taken from a suspect. But with the
help of finger and palm print databases, fingerprint evidence can be used to make an
identification without a suspect or a comparison sample. Success in finger and palm print
examinations lies in detecting the invisible finger and palm marks in the crime scene and
successfully developing these latent marks. Although there are many studies on the
development of latent finger and palm marks, it is an area that needs more studies.
This master thesis; it is aimed to develop an eco-friendly solution that does not harm the
health of the user by making use of nanotechnology and nanomaterials, which are
considered to be a technological revolution that will dominate after 2025. In the study, A
suspension was prepared using silica (SiO2) and graphene in 2-hydroxy ethyl cellulose
(2-HEC), a natural, eco-friendly, cellulose derivative macromolecule that is not harmful to health. Characterization of material was carried out by Fourier Transform Infrared
Spectroscopy (FT-IR), X-Ray Diffraction Spectroscopy (XRD), and Scanning Electron
Microscope-Energy Dispersive X-Ray Spectroscopy (SEM-EDX) instrumental analysis
methods. At the last stage of the study, developed solutions were applied to the 1, 3, 5, 7,
and 14-day-old finger marks left on the prepared glass, plastic, aluminum foil, processed
wood, untreated wood, paper, and metal surfaces. Overall results show that solutions were
prepared successfully in the XRD, FT-IR, and SEM-EDX analysis results. It has been
observed that the nanocomposite films formed successfully on selected surfaces other
than paper and untreated wood surfaces. Nanocomposite films successfully lift the latent
finger marks and have a flexible and protective structure for the latent finger marks.
Remove traces, and have a flexible structure that protects traces. It has been observed that
the latent marks lifted with nanocomposite films are suitable for further finger mark
development methods. It is evaluated that nanocomposite films can simultaneously
protect and develop marks. Overall, test results show that solutions with AKN are more
successful than others, and the most successful solution was 2-HEC/neutral SiO2/AKN.
In order to test the applicability of the solutions with alternative methods, the solutions
were tested by steaming, dipping, and spraying methods. As a result of applying the
solutions with these methods, the expected outcomes have not been achieved. It is
considered that successful results can be obtained with the necessary improvements and
determination of appropriate values for the steaming and spraying method.
Overall, by using the results of this study, a contribution to the Forensic Sciences
literature has been made by developing a low-cost, harmless-to-user health and effective
solution on different surfaces using eco-friendly cellulose-derived macromolecule
materials.
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