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Dansyl fluorophore functionalized hierarchically structured mesoporous silica nanoparticles as novel latent fingerprint development agents

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posted on 2024-07-18, 09:36 authored by Lais F. A. M. Oliveira, Lais V. A. T. da Silva, Artur F. Sonsin, Meclycia S Alves, Cristiane V. Costa, Jeane C. S. Melo, Nicholas Ross, Paul T. Wady, Thomas Zinn, Ticiano G. do Nascimento, Eduardo J. S. Fonseca, Alexandro M. L. de Assis, Rob HillmanRob Hillman, Adriana S. Ribeiro

A nanostructured hybrid material based on mesoporous silica nanoparticles (MCM-41) functionalized with chitosan and a fluorescent dye (dansylglycine), designated MCM-41@Ch@DnsGly, was synthesized and characterized with a view to its application for the visualization of latent fingerprints. These nanoparticles were applied as latent fingerprint developers for marks on surfaces of diverse chemical composition, topography, optical characteristics, and spatially variant nature, typical of forensically challenging evidence. For quality assessment of the enhanced fingermarks, the developed images were analyzed holistically using the UK Home Office scale, forensic protocols and, in terms of their constituent features (minutiae), using forensic software. Across a substantive collection of marks deposited on chemically diverse surfaces and subject to complex environmental and temporal histories, 94% of the enhanced images presented sufficient minutiae for comparison with model dactyloscopy images. This novel nanomaterial presents enhanced performance with significant promise for superior exploitation by forensic practitioners in the acquisition and analysis of crime scene evidence.

Funding

Multi-User Facility for SAXS/WAXS Studies on Nanoscale Structures in Controlled Environments.

Engineering and Physical Sciences Research Council

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FAPEAL (process 60030.0000001635/2022)

History

Author affiliation

College of Science & Engineering Chemistry

Version

  • VoR (Version of Record)

Published in

RSC Advances

Volume

14

Publisher

Royal Society of Chemistry

issn

2046-2069

eissn

2046-2069

Acceptance date

2024-07-04

Copyright date

2024

Available date

2024-07-18

Language

en

Deposited by

Professor Rob Hillman

Deposit date

2024-07-17

Data Access Statement

Data supporting this article have been included as part of the ESI

Rights Retention Statement

  • No

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