Non-destructive and simultaneous development and enhancement of latent fingerprints on stainless steel based on the electrochromic effect of electrodeposited manganese oxides

Non-destructive and simultaneous development and enhancement of latent fingerprints on stainless steel based on the electrochromic effect of electrodeposited manganese oxides

Latent fingerprints, as one of the most frequently encountered traces in crime scene investigation and also one of the largest sources of forensic evidence, can play a critical role in determining the identity of a person who may be involved in a crime. Due to the invisible characteristic of latent...

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Bibliographic Details
Published in:Talanta (Oxford) Vol. 275; p. 126148
Main Authors: Yuan, Chuanjun, Li, Ming, Wang, Meng, Lv, Jiaming, Sun, Yifei, Lu, Tianyi, Jia, Yuxin, Cao, Haijun, Lin, Tianchun
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-08-2024
Subjects:
Electrochemical deposition
Electrochromism
Forensic science
Latent fingermark
Latent fingerprint
Manganese oxide
Electrochemical deposition
Latent fingerprint
Electrochromism
Forensic science
Latent fingermark
Manganese oxide
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Summary:Latent fingerprints, as one of the most frequently encountered traces in crime scene investigation and also one of the largest sources of forensic evidence, can play a critical role in determining the identity of a person who may be involved in a crime. Due to the invisible characteristic of latent fingerprints, exploring efficient techniques to visualize them (especially the ones resided on metallic surfaces) while retain the biological and chemical information (e.g., touch DNA) has become a multidisciplinary research focus. Herein we reported a new and highly sensitive electrochemical interfacial strategy of simultaneously developing and enhancing latent fingerprints on stainless steel based on synchronous electrodeposition and electrochromism of manganese oxides in a neutral aqueous electrolyte. By utilizing a specially designed device for electrochemical testing and image capture, a series of electrochemical measurements, physical characterization and image analysis have been applied to evaluate the feasibility, development accuracy and enhancement efficacy of the proposed electrochemical system. The qualitative and quantitative analysis on the in situ and ex situ fingerprint images indicates that the three levels of fingerprint features can be precisely developed and effectively enhanced. Forensic DNA typing has also been performed to reveal actual impact of the proposed electrochemical system on subsequent analysis of touch DNA in fingerprint residues. The ratio of detected loci after electrochemical treatment reaches up to 98.5 %, showing non-destructive nature of this fingerprint development and enhancement technique. [Display omitted] •Design of a device for electrochemical testing and fingerprint image capture.•Evaluation based on the combination of electrochemical tests and image analysis.•Realization of simultaneous development and enhancement of latent fingerprints.•Excellent compatibility with subsequent forensic DNA analysis.
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ISSN:0039-9140
1873-3573
DOI:10.1016/j.talanta.2024.126148