Chemical development of latent fingerprints: Computational design of ninhydrin analogues

Ron Elber; Arie Frank; Joseph Almog

doi:10.1520/jfs14767j

Chemical development of latent fingerprints: Computational design of ninhydrin analogues

Ron Elber, Arie Frank, Joseph Almog^*

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

The design of chemical compounds for development of latent fingerprints is explored computationally. Our main findings are: (a) We show why past attempts to improve the widely used ninhydrin gave relatively small improvements (referring to color only). The optical transition is connected with a 'transition core' and therefore is influenced little by substitution on the aromatic rings. (b) We propose new analogues of ninhydrin with a significant potential such as thiono derivatives.

Original language	English
Pages (from-to)	757-760
Number of pages	4
Journal	Journal of Forensic Sciences
Volume	45
Issue number	4
DOIs	https://doi.org/10.1520/jfs14767j
State	Published - Jul 2000

Keywords

Chemistry
Computational
Fingerprint development
Fingerprints
Forensic science
Latent
Ninhydrin
Ninhydrin analogues
Optical absorption
Ruhemann's purple

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10.1520/jfs14767j

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abstract = "The design of chemical compounds for development of latent fingerprints is explored computationally. Our main findings are: (a) We show why past attempts to improve the widely used ninhydrin gave relatively small improvements (referring to color only). The optical transition is connected with a 'transition core' and therefore is influenced little by substitution on the aromatic rings. (b) We propose new analogues of ninhydrin with a significant potential such as thiono derivatives.",

keywords = "Chemistry, Computational, Fingerprint development, Fingerprints, Forensic science, Latent, Ninhydrin, Ninhydrin analogues, Optical absorption, Ruhemann's purple",

author = "Ron Elber and Arie Frank and Joseph Almog",

year = "2000",

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AB - The design of chemical compounds for development of latent fingerprints is explored computationally. Our main findings are: (a) We show why past attempts to improve the widely used ninhydrin gave relatively small improvements (referring to color only). The optical transition is connected with a 'transition core' and therefore is influenced little by substitution on the aromatic rings. (b) We propose new analogues of ninhydrin with a significant potential such as thiono derivatives.

KW - Chemistry

KW - Computational

KW - Fingerprint development

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KW - Forensic science

KW - Latent

KW - Ninhydrin

KW - Ninhydrin analogues

KW - Optical absorption

KW - Ruhemann's purple

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Chemical development of latent fingerprints: Computational design of ninhydrin analogues

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Keywords

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