Fingerprint detection is among the most necessary methods in forensic investigation. When fingerprints are dusted with a carbon-based powder, the fabric will adhere to the moisture and grease left behind by the distinctive patterns of ridges and valleys on the perpetrator’s fingertip. The ensuing sample can then be analyzed underneath a microscope, and in contrast with suspects’ fingerprints.
Researchers led by Bienvenu Gael Fouda-Mbanga at Nelson Mandela College, Gzeberha, South Africa, have found a brand new sort of powder for dusting fingerprints. It allowed them to picture their nanoscale particulars extra clearly whereas deepening the distinction between ridges and valleys. This work is now printed in Hybrid Advances.
Constituted of manganese-doped iron oxide nanoparticles and coated in an activated wool char, this new materials might assist forensic investigators resolve crimes extra simply.
Not too long ago, metal-oxide nanoparticles have turn out to be more and more in style in fingerprint detection. Not solely are they straightforward to provide, however additionally they have a excessive floor space and chemical reactivity, permitting them to work together strongly with the chemical compounds contained in fingerprint residues.
When coated in carbon, these nanoparticles create a deeper distinction in fingerprint pictures, making them far simpler to investigate.
Of their research, Fouda-Mbanga’s staff fabricated their iron oxide nanoparticles utilizing a low-cost, environmentally pleasant “hydrothermal” methodology. They then coated the particles with activated charred wool. This extensively accessible agricultural waste product is chemically inert, making it safer to make use of than standard carbon-based powders, whereas additionally enhancing the steadiness of the extra reactive nanoparticles.
To look at their powder’s efficiency, the researchers used it to mud fingerprint residues on a non-porous aluminum floor. They then employed a number of several types of electron microscopy and lightweight spectroscopy to picture them.
The photographs they produced have been extremely promising, revealing particulars all the way down to a nanoscale decision whereas exhibiting a starker distinction than many varieties of powder examined in earlier research. Following this success, Fouda-Mbanga’s staff now hope that their strategy to nanoparticle fabrication might quickly be utilized extra extensively in forensic investigation.
Extra data:
B.G. Fouda-Mbanga et al, Nanoarchitectonics of WLC-H3PO4–MnFe2O3 nanocomposite for latent fingerprint detection, Hybrid Advances (2023). DOI: 10.1016/j.hybadv.2023.100122
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Bettering fingerprint detection with carbon-coated nanoparticles (2024, June 17)
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