Aplicação da radiação infravermelha na identificação de adulterações em documentos: estudos de casos

Lara Aparecida Buffoni de Campos Carneiro

doi:10.15260/rbc.v12i5.721

Aplicación de la Radiación Infrarroja en la Identificación de Adulteraciones en Documentos: Estudios de Caso.

Vol. 12 Núm. 5 (2023)
96-104
04/04/2023
08/12/2023
10.15260/rbc.v12i5.721

Resumen

Este artículo reúne estudios de caso sobre la aplicación de la radiación infrarroja como herramienta eficaz para la identificación de señales de adulteración en documentos. En los análisis se utilizó equipamiento óptico disponible en el Núcleo de Pericias Criminalísticas de Ribeirão Preto, permitiendo la observación de los materiales periciados tanto bajo luz visible como bajo radiación electromagnética en la región infrarroja (radiación infrarroja). El conjunto de procedimientos aplicado permitió, en algunos casos, diferenciar tintas de bolígrafos que parecían idénticas bajo luz visible. Sus propiedades fisicoquímicas produjeron, bajo análisis no destructivo, perfiles distintos frente a la luminiscencia infrarroja. Sin embargo, otros materiales demostraron perfiles de luminiscencia indistinguibles. En estos casos, el potencial de la propiedad de absorción de la radiación infrarroja en la búsqueda de características indicativas de adulteración documental fue demostrado mediante su capacidad para revelar elementos grafoscópicos, tales como la presión del trazo sobre el soporte documental.

Palabras clave

adulterações

radiação infravermelha

documetoscopia

diferenciação entre tintas

canetas esferográficas

Adulteraciones Documentales

Radiación Infrarroja

Documentoscopia

Diferenciación de Tintas

Bolígrafos

Citas

ABNT, NBR 15368 - Tecnologia gráfica - Impressos de segurança - Terminologia 16, 2016.
S. Feuerharmel. Analise Grafoscópica de Assinaturas, 1 ed., Millennium Editora, Campinas – SP, 2017.
N. Kapoor; P. Sulke; R.K. Shukla; R. Kakad; P. Pardeshi; A. Badiye. Forensic analytical approaches to the dating of documents: An overview. Microchem. J. 170, 2021.
J. Barker; R. Ramotowski; J. Nwokoye. The effect of solvent grade on thin layer chromatographic analysis of writing inks. Forensic Sci. Int. 266, 139-147, 2016.
D. L. Pavia; G. M. Lampman; G. S. Kriz; J. R. Vyvyan. Introdução à Espectroscopia, 4 ed., Cengace Learning, 2010.
M. Alfeld; J.A.C. Broekaert. Mobile depth profiling and sub-surface imaging techniques for historical paintings - A review. Spectrochim. Acta - Part B At. Spectrosc. 88, 211-230, 2013.
Technical Committee ISO/TC 172, ISO 20473:2007 - Optics and photonics - Spectral bands, 1, 2007.
S.T. De Broux; K.K. McCaul. S. Shimamoto, Infrared Photography. 1-22, 2007.
M.E. Gondra; R. Grávalos; Goyo. Análise Forense de Documentos: Instrumentos de Escrita Manual e suas Tintas. 1 ed., Millennium Editora, Campinas – SP, 2012.
R. Chowdhry; S.K. Gupta; H.L. Bam. Ink Differentiation with Infrared Techniques. J. Forensic Sci. 18, 418-433, 1973.
J.R.J. van Asperen de Boer. Infrared Reflectography: a Method for the Examination of Paintings. Appl. Opt. 7, 1711-1714, 1968.
J.R.J. Van Asperen De Boer. Reflectography of paintings using an infrared vidicon television system. Stud. Conserv. 14, 96-118, 1969.
Y. Chen; S. Wang; F. Zhang. Near-infrared luminescence high-contrast in vivo biomedical imaging. Nat. Rev. Bioeng. 1, 60-78, 2023.
D. Parker; J.A.G. Williams. Taking advantage of the pH and pO2 sensitivity of a luminescent macrocyclic terbium phenanthridyl complex. Chem. Commun. 2, 245-246, 1998.
L.B. Mendes. Documentoscopia, 4 ed., Millennium Editora, Campinas – SP, 2015.
D.R. Rohilla; S.K. Das Gupta; S.K. Gupta; H.L. Bami. A rapid infrared luminescence method for differentiation of ink writing. Forensic Sci. Int. 15, 153-159, 1980.
D.M. Ellen; K.E. Creer. Infrared luminescence in the examination of documents. J. Forensic Sci. Soc. 10, 159-164, 1970.
G. Sauzier; J. McGinn; T. Trubshoe; S.W. Lewis. In situ examination of handwritten blue ballpoint inks using video spectral comparison with chemometrics. Forensic Sci. Int. Reports. 1, 100021, 2019.
R.P. Gorziza; C.M.B. Carvalho; M. González; L.B. Leal; T. Korndörfer; R.S. Ortiz; T. Trejos; R.P. Limberger; Blue and Black Ballpoint Pen Inks: a Systematic Review for Ink Characterization and Dating Analysis. Brazilian J. Forensic Sci. Med. Law Bioeth. 8, 113-138, 2019.
M. Calcerrada; M. González-Herráez; C. Garcia-Ruiz. A microdestructive capillary electrophoresis method for the analysis of blue-pen-ink strokes on office paper. J. Chromatogr. A. 1400, 140-148, 2015.
D. Akhmerov;, A. Krylova; A. Stavrianidi; O. Shpigun; I. Rodin. Forensic Identification of Dyes in Ballpoint Pen Inks Using LC–ESI–MS. Chromatographia 80, 1701-1709, 2017.
V. Sharma; R. Kumar. Fourier transform infrared spectroscopy and high performance thin layer chromatography for characterization and multivariate discrimination of blue ballpoint pen ink for forensic applications. Vib. Spectrosc. 92, 96-104, 2017.
M.N. Mohamad Asri; N.H. Hashim; W.N.S. Mat Desa; D. Ismail. Pearson Product Moment Correlation (PPMC) and Principal Component Analysis (PCA) for objective comparison and source determination of unbranded black ballpoint pen inks. Aust. J. Forensic Sci. 50, 323-340, 2018.
F.S.L. Borba; R.S. Honorato; A. Juan. Use of Raman spectroscopy and chemometrics to distinguish blue ballpoint pen inks. Forensic Sci. Int. 249, 73-82, 2015.
D.L. Feraru; A. Meghea. Comparative forensic analysis of ballpoint pen inks. Rev. Chim. 65, 420-425, 2014.

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Lara Aparecida Buffoni de Campos Carneiro,

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[1] ABNT, NBR 15368 - Tecnologia gráfica - Impressos de segurança - Terminologia 16, 2016.

[2] S. Feuerharmel. Analise Grafoscópica de Assinaturas, 1 ed., Millennium Editora, Campinas – SP, 2017.

[3] N. Kapoor; P. Sulke; R.K. Shukla; R. Kakad; P. Pardeshi; A. Badiye. Forensic analytical approaches to the dating of documents: An overview. Microchem. J. 170, 2021.

[4] J. Barker; R. Ramotowski; J. Nwokoye. The effect of solvent grade on thin layer chromatographic analysis of writing inks. Forensic Sci. Int. 266, 139-147, 2016.

[5] D. L. Pavia; G. M. Lampman; G. S. Kriz; J. R. Vyvyan. Introdução à Espectroscopia, 4 ed., Cengace Learning, 2010.

[6] M. Alfeld; J.A.C. Broekaert. Mobile depth profiling and sub-surface imaging techniques for historical paintings - A review. Spectrochim. Acta - Part B At. Spectrosc. 88, 211-230, 2013.

[7] Technical Committee ISO/TC 172, ISO 20473:2007 - Optics and photonics - Spectral bands, 1, 2007.

[8] S.T. De Broux; K.K. McCaul. S. Shimamoto, Infrared Photography. 1-22, 2007.

[9] M.E. Gondra; R. Grávalos; Goyo. Análise Forense de Documentos: Instrumentos de Escrita Manual e suas Tintas. 1 ed., Millennium Editora, Campinas – SP, 2012.

[10] R. Chowdhry; S.K. Gupta; H.L. Bam. Ink Differentiation with Infrared Techniques. J. Forensic Sci. 18, 418-433, 1973.

[11] J.R.J. van Asperen de Boer. Infrared Reflectography: a Method for the Examination of Paintings. Appl. Opt. 7, 1711-1714, 1968.

[12] J.R.J. Van Asperen De Boer. Reflectography of paintings using an infrared vidicon television system. Stud. Conserv. 14, 96-118, 1969.

[13] Y. Chen; S. Wang; F. Zhang. Near-infrared luminescence high-contrast in vivo biomedical imaging. Nat. Rev. Bioeng. 1, 60-78, 2023.

[14] D. Parker; J.A.G. Williams. Taking advantage of the pH and pO2 sensitivity of a luminescent macrocyclic terbium phenanthridyl complex. Chem. Commun. 2, 245-246, 1998.

[15] L.B. Mendes. Documentoscopia, 4 ed., Millennium Editora, Campinas – SP, 2015.

[16] D.R. Rohilla; S.K. Das Gupta; S.K. Gupta; H.L. Bami. A rapid infrared luminescence method for differentiation of ink writing. Forensic Sci. Int. 15, 153-159, 1980.

[17] D.M. Ellen; K.E. Creer. Infrared luminescence in the examination of documents. J. Forensic Sci. Soc. 10, 159-164, 1970.

[18] G. Sauzier; J. McGinn; T. Trubshoe; S.W. Lewis. In situ examination of handwritten blue ballpoint inks using video spectral comparison with chemometrics. Forensic Sci. Int. Reports. 1, 100021, 2019.

[19] R.P. Gorziza; C.M.B. Carvalho; M. González; L.B. Leal; T. Korndörfer; R.S. Ortiz; T. Trejos; R.P. Limberger; Blue and Black Ballpoint Pen Inks: a Systematic Review for Ink Characterization and Dating Analysis. Brazilian J. Forensic Sci. Med. Law Bioeth. 8, 113-138, 2019.

[20] M. Calcerrada; M. González-Herráez; C. Garcia-Ruiz. A microdestructive capillary electrophoresis method for the analysis of blue-pen-ink strokes on office paper. J. Chromatogr. A. 1400, 140-148, 2015.

[21] D. Akhmerov;, A. Krylova; A. Stavrianidi; O. Shpigun; I. Rodin. Forensic Identification of Dyes in Ballpoint Pen Inks Using LC–ESI–MS. Chromatographia 80, 1701-1709, 2017.

[22] V. Sharma; R. Kumar. Fourier transform infrared spectroscopy and high performance thin layer chromatography for characterization and multivariate discrimination of blue ballpoint pen ink for forensic applications. Vib. Spectrosc. 92, 96-104, 2017.

[23] M.N. Mohamad Asri; N.H. Hashim; W.N.S. Mat Desa; D. Ismail. Pearson Product Moment Correlation (PPMC) and Principal Component Analysis (PCA) for objective comparison and source determination of unbranded black ballpoint pen inks. Aust. J. Forensic Sci. 50, 323-340, 2018.

[24] F.S.L. Borba; R.S. Honorato; A. Juan. Use of Raman spectroscopy and chemometrics to distinguish blue ballpoint pen inks. Forensic Sci. Int. 249, 73-82, 2015.

[25] D.L. Feraru; A. Meghea. Comparative forensic analysis of ballpoint pen inks. Rev. Chim. 65, 420-425, 2014.

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Aplicación de la Radiación Infrarroja en la Identificación de Adulteraciones en Documentos: Estudios de Caso.

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