U.S. flag

An official website of the United States government, Department of Justice.

NCJRS Virtual Library

The Virtual Library houses over 235,000 criminal justice resources, including all known OJP works.
Click here to search the NCJRS Virtual Library

A Generalized Approach to Forensic Dye Identification: Development and Utility of Reference Libraries

NCJ Number
253240
Journal
Journal of Aoac International Volume: 101 Issue: 5 Dated: September-October 2018 Pages: 1385-1396
Author(s)
Ethan Groves; Skip Palenik; Christopher S. Palenik
Date Published
October 2018
Length
12 pages
Annotation

This study presents a generalized approach to dye identification that (1) combines several robust analytical methods; (2) is broadly applicable to a wide range of dye chemistries, application classes, and fiber types; and (3) can be scaled down to forensic casework-sized samples.

Abstract

Although color is arguably the most important optical property of evidential fibers, the actual dyestuffs responsible for its expression in them are, in forensic trace evidence examinations, rarely analyzed and still less often identified. This is due, primarily, to the exceedingly small quantities of dye present in a single fiber as well as to the fact that dye identification is a challenging analytical problem, even when large quantities are available for analysis. Among the practical reasons for this are the wide range of dyestuffs available (and the even larger number of trade names), the low total concentration of dyes in the finished product, the limited amount of sample typically available for analysis in forensic cases, and the complexity of the dye mixtures that may exist within a single fiber. Literature on the topic of dye analysis is often limited to a specific method, subset of dyestuffs, or an approach that is not applicable given the constraints of a forensic analysis. The approach of the current study is based on the development of a reference collection of 300 commercially relevant textile dyes that have been characterized by a variety of microanalytical methods (HPTLC, Raman microspectroscopy, infrared microspectroscopy, UV-Vis spectroscopy, and visible microspectrophotometry). Although there is no single approach that is applicable to all dyes on every type of fiber, a combination of these analytical methods has been applied using a reproducible approach that permits the use of reference libraries to constrain the identity of and, in many cases, identify the dye (or dyes) present in a textile fiber sample. (publisher abstract modified)