Investigation of handheld laser induced breakdown spectroscopy (HH LIBS) for the analysis of beryllium on swipe surfaces

Benjamin T. Manard, Michael F. Schappert, E. Miller Wylie, Garrett E. McMath

Research output: Contribution to journalArticlepeer-review

13 Scopus citations

Abstract

Handheld laser induced breakdown spectroscopy (HH LIBS) was explored for its feasibility to perform rapid, semi-quantitative analysis of beryllium (Be) on fibrous swipe materials which could prove to be impactful for industrial hygiene (IH) based applications. Here, the HH LIBS methodology was compared to established methods including inductively coupled plasma-optical emission spectroscopy and fluorescence spectroscopy to examine its ability to accurately determine Be concentrations on swipe samples. It was determined that, while not as precise as ICP-OES and fluorescence spectroscopy, HH LIBS was able to quantify Be on solid substrates with values of 0.63 and 4.98 μg Be for swipes that contained 0.5 and 5.0 μg Be. In addition to quantification, HH LIBS was explored for its ability to chemically map the Be on the swipe material. Be can be detected directly from the swipe surface and subsequently, spatial analysis of the desired analyte can be performed by rastering a desired pattern that can be translated into a chemical map. The HH LIBS methodology could prove to be a vital analytical technique for applications in which rapid chemical analysis must be performed in the field to determine the presence of beryllium.

Original languageEnglish
Pages (from-to)752-759
Number of pages8
JournalAnalytical Methods
Volume11
Issue number6
DOIs
StatePublished - Feb 14 2019

Funding

The authors would like to acknowledge the Materials Recycle and Recovery (MR&R) program at the Los Alamos National Laboratory for funding this project. The authors would also like to acknowledge Kelsey Culbertson and High Purity Standards for assisting in providing unknown Be-doped brous swipe samples and insightful conversations on swipe standard production.

FundersFunder number
Materials Recycle and Recovery
Los Alamos National Laboratory

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