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Novel Safranin-Tinted Candida rugosa Lipase Nanoconjugates Reagent for Visualizing Latent Fingerprints on Stainless Steel Knives Immersed in a Natural Outdoor Pond.

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Title: Novel Safranin-Tinted Candida rugosa Lipase Nanoconjugates Reagent for Visualizing Latent Fingerprints on Stainless Steel Knives Immersed in a Natural Outdoor Pond.
Authors: Azman, Aida Rasyidah, Mahat, Naji Arafat, Abdul Wahab, Roswanira, Abdul Razak, Fazira Ilyana, Hamzah, Hafezul Helmi
Source: International Journal of Molecular Sciences; Jun2018, Vol. 19 Issue 6, p1576, 1p, 2 Color Photographs, 3 Diagrams, 2 Charts, 1 Graph
Abstract: Waterways are popular locations for the disposition of criminal evidence because the recovery of latent fingerprints from such evidence is difficult. Currently, small particle reagent is a method often used to visualize latent fingerprints containing carcinogenic and hazardous compounds. This study proposes an eco-friendly, safranin-tinted Candida rugosa lipase (triacylglycerol ester hydrolysis EC 3.1.1.3) with functionalized carbon nanotubes (CRL-MWCNTS/GA/SAF) as an alternative reagent to the small particle reagent. The CRL-MWCNTS/GA/SAF reagent was compared with the small particle reagent to visualize groomed, full fingerprints deposited on stainless steel knives which were immersed in a natural outdoor pond for 30 days. The quality of visualized fingerprints using the new reagent was similar (modified-Centre for Applied Science and Technology grade: 4; p > 0.05) to small particle reagent, even after 15 days of immersion. Despite the slight decrease in quality of visualized fingerprints using the CRL-MWCNTS/GA/SAF on the last three immersion periods, the fingerprints remained forensically identifiable (modified-Centre for Applied Science and Technology grade: 3). The possible chemical interactions that enabled successful visualization is also discussed. Thus, this novel reagent may provide a relatively greener alternative for the visualization of latent fingerprints on immersed non-porous objects. [ABSTRACT FROM AUTHOR]
Subject Terms: CHEMICAL reagents, STAINLESS steel, HAZARDOUS substances, MULTIWALLED carbon nanotubes, FORENSIC sciences
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ISSN: 16616596
DOI: 10.3390/ijms19061576
Database: Complementary Index
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