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

Homogeneity assessment of the elemental composition of windshield glass by mu-XRF, LIBS and LA-ICP-MS analysis

NCJ Number
304778
Journal
Forensic Chemistry
Date Published
Unknown
Annotation

This study evaluates the capability of μ-XRF and LIBS analyses to characterize the homogeneity (elemental variation) of glass compared to the LA-ICP-MS quantitative analysis method.

Abstract

Two premises in the forensic comparison of glass are that 1) the elemental composition across a single source (e.g., a pane) is homogeneous and 2) the elemental variation within a single source is much smaller than the elemental variation observed among different glass sources (different panes manufactured at different sites or different times). These assumptions are widely supported when using microsampling methods such as LA-ICP-MS; however, systematic homogeneity studies using μ-XRF and LIBS methods are unavailable. In this study, the variability of the elemental composition within 100 fragments from two different panes of the same windshield was characterized using chemical maps, and semi-quantitative data was used to compare fragments within and between the different panes. When comparing pieces within the same pane, the variability for most elements was less than 10% RSD for both μ-XRF and LIBS and less than 5% RSD for LA-ICP-MS. Comparison methods simulating casework situations in which one questioned fragment is compared to more than one known fragment resulted in better performance as the number of fragments of the known sample increased (to up to 4 fragments, 12–20 measurements). The results show the comparison criteria should be selected according to the instrument’s precision and sensitivity. Error rates below 3% were obtained for μ-XRF and LIBS when selecting the appropriate number of fragments, measurements, and comparison criterion. (Publisher Abstract)