Latente Fingerabdrücke auf Thermopapier

Fingerprints are one of the most important forms of physical evidence in criminal investigations. When making latent fingerprints visible on thermal paper receipts, forensic experts face a difficult task as many common detection methods for visualizing latent fingerprints do not work without organic solvents or the use of heat. However, processing techniques often trigger the color reaction in the thermal paper, making this black, the print illegible and thus the probative value of the document is nullified. A fundamental knowledge of the design and operation of thermal papers is indispensable for understanding why damage occurs during chemical development of latent ridge detail on these papers and why fingerprints can be developed through the controlled application of heat. On our results, the blackening at the location of the fingerprint below the color change temperature of the thermal paper based on intermolecular forces. Newly formed interactions between the molecules of the hydrophobic fingerprint secretions and the components of the thermochromic mixture in the thermal paper lead to the fact that leuco dye and color developer encapsulated in the thermal coat of the paper is mobilized even at low heat and can thus form the black developer-dye complex. A newly developed method whereby fingerprints can also be developed by immersion in hot water supports our hypothesis.