Laser-Induced Breakdown Spectroscopy – A geochemical tool for the 21st century

Laser-induced breakdown spectroscopy (LIBS) is a simple, straightforward, and versatile form of atomic emission spectroscopy that focuses a rapidly-pulsed laser beam onto a sample to form a plasma containing its constituent elements and then uses spectral analysis of the emitted light to detect the...

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Published in	Applied geochemistry Vol. 128; p. 104929
Main Authors	Harmon, Russell S., Senesi, Giorgio S.
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.05.2021
Subjects	atomic absorption spectrometry chemical analysis Chemometrics Geochemical fingerprinting geochemistry GeoLIBS instrumentation Laser-induced breakdown spectroscopy LIBS quantitative analysis spectral analysis Geochemical fingerprinting GeoLIBS LIBS Chemometrics Laser-induced breakdown spectroscopy
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Abstract	Laser-induced breakdown spectroscopy (LIBS) is a simple, straightforward, and versatile form of atomic emission spectroscopy that focuses a rapidly-pulsed laser beam onto a sample to form a plasma containing its constituent elements and then uses spectral analysis of the emitted light to detect the elements present. In theory, LIBS is capable of qualitative, semi-quantitative, and quantitative analysis of all elements in the periodic table. LIBS can be performed in the laboratory or outside in the ambient environment for on-site analysis in situ; LIBS can also be used for rapid microscale compositional imaging. This review first presents a description of the LIBS technique and then discusses and illustrates through a historic literature review how LIBS has been used to analyze gases, natural waters, minerals, rocks, sediments, and soils. Given the persistent need of analytical instrumentation for the rapid chemical analysis of geologic materials in the field, and the capability of LIBS to analyze any type of sample in real time with little to no preparation, there is a vast potential for the routine application of LIBS across a broad spectrum of the geosciences that is as yet only minimally realized. [Display omitted] •LIBS has specific advantages for rapid chemical analysis in the laboratory and the field, plus vast potential for application across geosciences.•LIBS principles, technology, and chemometric methods for data analysis are described.•The applications of LIBS is reviewed for the chemical analysis of different types of geological media.•Recent trends are highlighted for chemical imaging and microscale elemental analysis minerals and rocks by LIBS.
AbstractList	Laser-induced breakdown spectroscopy (LIBS) is a simple, straightforward, and versatile form of atomic emission spectroscopy that focuses a rapidly-pulsed laser beam onto a sample to form a plasma containing its constituent elements and then uses spectral analysis of the emitted light to detect the elements present. In theory, LIBS is capable of qualitative, semi-quantitative, and quantitative analysis of all elements in the periodic table. LIBS can be performed in the laboratory or outside in the ambient environment for on-site analysis in situ; LIBS can also be used for rapid microscale compositional imaging. This review first presents a description of the LIBS technique and then discusses and illustrates through a historic literature review how LIBS has been used to analyze gases, natural waters, minerals, rocks, sediments, and soils. Given the persistent need of analytical instrumentation for the rapid chemical analysis of geologic materials in the field, and the capability of LIBS to analyze any type of sample in real time with little to no preparation, there is a vast potential for the routine application of LIBS across a broad spectrum of the geosciences that is as yet only minimally realized. Laser-induced breakdown spectroscopy (LIBS) is a simple, straightforward, and versatile form of atomic emission spectroscopy that focuses a rapidly-pulsed laser beam onto a sample to form a plasma containing its constituent elements and then uses spectral analysis of the emitted light to detect the elements present. In theory, LIBS is capable of qualitative, semi-quantitative, and quantitative analysis of all elements in the periodic table. LIBS can be performed in the laboratory or outside in the ambient environment for on-site analysis in situ; LIBS can also be used for rapid microscale compositional imaging. This review first presents a description of the LIBS technique and then discusses and illustrates through a historic literature review how LIBS has been used to analyze gases, natural waters, minerals, rocks, sediments, and soils. Given the persistent need of analytical instrumentation for the rapid chemical analysis of geologic materials in the field, and the capability of LIBS to analyze any type of sample in real time with little to no preparation, there is a vast potential for the routine application of LIBS across a broad spectrum of the geosciences that is as yet only minimally realized. [Display omitted] •LIBS has specific advantages for rapid chemical analysis in the laboratory and the field, plus vast potential for application across geosciences.•LIBS principles, technology, and chemometric methods for data analysis are described.•The applications of LIBS is reviewed for the chemical analysis of different types of geological media.•Recent trends are highlighted for chemical imaging and microscale elemental analysis minerals and rocks by LIBS.
ArticleNumber	104929
Author	Senesi, Giorgio S. Harmon, Russell S.
Author_xml	– sequence: 1 givenname: Russell S. orcidid: 0000-0003-1967-3611 surname: Harmon fullname: Harmon, Russell S. email: rsharmon@ncsu.edu organization: Department of Marine, Earth, and Atmospheric Sciences, North Carolina State University, Raleigh, NC, 27695, USA – sequence: 2 givenname: Giorgio S. surname: Senesi fullname: Senesi, Giorgio S. email: giorgio.senesi@cnr.it organization: CNR - Istituto per la Scienza e Tecnologia dei Plasmi (ISTP), Sede di Bari, Bari, 70126, Italy
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Snippet	Laser-induced breakdown spectroscopy (LIBS) is a simple, straightforward, and versatile form of atomic emission spectroscopy that focuses a rapidly-pulsed...
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SubjectTerms	atomic absorption spectrometry chemical analysis Chemometrics Geochemical fingerprinting geochemistry GeoLIBS instrumentation Laser-induced breakdown spectroscopy LIBS quantitative analysis spectral analysis
Title	Laser-Induced Breakdown Spectroscopy – A geochemical tool for the 21st century
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