Análisis Vibracional Infrarrojo y Raman de Materiales Altamente Energéticos Con Quimiometria

• Jorge L. Plata Enríquez ^[2] ; John R. Castro-Suarez ^[1] ; María A. Villareal Blanco ^[2] ; Wilmer Carrión-Roca ^[2] ; Annette M. Colón-Mercado ^[2] ; José A. Centeno ^[2] ; Samuel P. Hernández-Rivera ^[2]
  1. [1] Universidad del Sinú

     Universidad del Sinú

     Colombia

     
  2. [2] Centro Químico de Sensores/Centro de Imágenes Químicas y Análisis de Superficies, Departamento de Química, Universidad de Puerto Rico-Mayagüez, EE. UU.
• Localización: RISTI: Revista Ibérica de Sistemas e Tecnologias de Informação, ISSN-e 1646-9895, Nº. Extra 62, 2023, págs. 406-424
• Idioma: español
• Títulos paralelos:
  • Infrared and Raman vibrational analysis of high energy materials with chemometrics
• Enlaces
  • Texto completo (pdf)
• Resumen
  • español

    La detección de materiales altamente energéticos (HEM), también llamados explosivos, es un tema de interés en todo el mundo. Cada año se pierden muchas vidas y bienes debido al uso inadecuado de estas sustancias.

    Esta investigación utiliza una metodología analítica basada en la espectroscopia vibracional tales como infrarroja (IR) y Raman para detectar explosivos. Se utilizaron como espectros de referencia los de TNT, DNT, PETN y RDX para las detecciones en modo IR y Raman. Las muestras utilizadas fueron superficies metálicas y muestras sólidas que contenían HEMs. Se detectaron bandas vibracionales Raman e infrarrojas. Se analizaron con esta metodología 14 muestras sólidas de composición desconocida. Se realizaron análisis cuantitativos comparativos basados en el índice de correlación espectral. Se realizaron análisis multivariantes supervisados, como el PLS-DA. Los resultados muestran que la espectroscopia IR y Raman es útil para identificar si una muestra tiene algún HEM.

  • English

    The detection of highly energetic materials (HEM), also called explosives, is a topic of worldwide interest. Every year many lives and property are lost due to the improper use of these substances. This research uses an analytical methodology based on vibrational spectroscopy such as infrared (IR) and Raman to detect explosives. Reference spectra from TNT, DNT, PETN and RDX were used for IR and Raman mode detections. The samples used were metallic surfaces and solid samples containing HEMs. Raman and infrared vibrational bands were detected. Fourteen solid samples of unknown composition were analyzed with this methodology. Comparative quantitative analyses based on the spectral correlation index were performed. Supervised multivariate analyses, such as PLS-DA, were performed. The results show that IR and Raman spectroscopy is useful to identify if a sample has any HEM.

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