Visualization of Fingermarks Deposits on Untreated Thermal Paper Exploiting the Near Infrared Luminescence

Thermal paper is widely used as a print medium for different applications but it constitutes a tricky substrate for fingermark visualization. An earlier work (J Forensic Sci 2015;60:1034) reported how to visualize fingermarks on untreated thermal paper by illuminating the item with a UV‐A light sour...

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Veröffentlicht in:	Journal of forensic sciences 2020-01, Vol.65 (1), p.238-247
Hauptverfasser:	Cappiello, Pietro, Zampa, Francesco, Siciliano, Maria, Amata, Biagio, Di Palma, Renato, Modica, Martino, Lazzaro, Antonio Pasquale
Format:	Artikel
Sprache:	eng
Schlagworte:	fingermarks Fingerprints forensic science Labeling Light sources Luminescence NIR luminescence nondestructive method Substrates thermal paper ultraviolet Visualization
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creator	Cappiello, Pietro Zampa, Francesco Siciliano, Maria Amata, Biagio Di Palma, Renato Modica, Martino Lazzaro, Antonio Pasquale
description	Thermal paper is widely used as a print medium for different applications but it constitutes a tricky substrate for fingermark visualization. An earlier work (J Forensic Sci 2015;60:1034) reported how to visualize fingermarks on untreated thermal paper by illuminating the item with a UV‐A light source. In the present paper, the potential of the near infrared (NIR) luminescence has been tested on thermal paper compared to the mentioned method. A controlled study was carried out utilizing eccrine enriched fingermarks. The promising outcomes obtained were further confirmed by performing a pseudo‐operational trial. Data clearly showed that the use of the NIR filter gave better results. Finally, preliminary tests suggested a different mechanism of reaction induced by fingermarks with respect to the one behind the thermal printing. Thus, NIR luminescence represents a refinement to the suite of optical examination processes, including the potential to increase the number of marks recovered in a noncontact, nondestructive way.
doi_str_mv	10.1111/1556-4029.14071
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An earlier work (J Forensic Sci 2015;60:1034) reported how to visualize fingermarks on untreated thermal paper by illuminating the item with a UV‐A light source. In the present paper, the potential of the near infrared (NIR) luminescence has been tested on thermal paper compared to the mentioned method. A controlled study was carried out utilizing eccrine enriched fingermarks. The promising outcomes obtained were further confirmed by performing a pseudo‐operational trial. Data clearly showed that the use of the NIR filter gave better results. Finally, preliminary tests suggested a different mechanism of reaction induced by fingermarks with respect to the one behind the thermal printing. 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An earlier work (J Forensic Sci 2015;60:1034) reported how to visualize fingermarks on untreated thermal paper by illuminating the item with a UV‐A light source. In the present paper, the potential of the near infrared (NIR) luminescence has been tested on thermal paper compared to the mentioned method. A controlled study was carried out utilizing eccrine enriched fingermarks. The promising outcomes obtained were further confirmed by performing a pseudo‐operational trial. Data clearly showed that the use of the NIR filter gave better results. Finally, preliminary tests suggested a different mechanism of reaction induced by fingermarks with respect to the one behind the thermal printing. 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source	Wiley Online Library Journals Frontfile Complete
subjects	fingermarks Fingerprints forensic science Labeling Light sources Luminescence NIR luminescence nondestructive method Substrates thermal paper ultraviolet Visualization
title	Visualization of Fingermarks Deposits on Untreated Thermal Paper Exploiting the Near Infrared Luminescence
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