SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2004554392> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W2004554392 endingPage "623" @default.
W2004554392 startingPage "609" @default.
W2004554392 abstract "Laser ablation coupled to inductively coupled plasma mass spectrometry has become a versatile and powerful analytical method for direct solid analysis. The applicability has been demonstrated on a wide variety of samples, where major, minor, and trace element concentrations or isotope ratio determinations have been of interest. The pros and cons of UV-nsec laser ablation have been studied in detail, and indicate that aerosol generation, aerosol transport, and aerosol excitation-ionization within the ICP contribute to fractionation effects, which prevent this method from a more universal application to all matrices and all elements. Recent progresses in IR-fs and UV-fs laser ablation coupled to ICP-MS have been reported, which increase the inter-matrix and multi-element quantification capabilities of this method. These fundamental improvements in LA-ICP-MS are of significant importance for entering new applications in material science and related research fields. In particular, because coatings (conducting and non-conducting) consist of single or multilayers of various elemental composition and of different thickness (nm-mm range), significant progress in the field of depth profiling with fs-laser ablation can be expected. Therefore, in-depth profile analysis of polymers, semiconductors, and metal sample investigations, using ultra-fast laser ablation for sampling and the currently achievable figures of merit, are discussed. In this review manuscript, the enhanced capabilities of fs-LA-ICP-MS for direct solid sampling are highlighted, and it is discussed about current methods used for quantitative analysis and depth profiling, the ablation process of UV-ns and UV-fs, the influence of the laser beam profile, aerosol structure and transport efficiency, as well as the influence of the ICP-MS (e.g., vaporization and ionization efficiency in the plasma, and type of mass analyzer)." @default.
W2004554392 created "2016-06-24" @default.
W2004554392 creator A5034219005 @default.
W2004554392 creator A5069359188 @default.
W2004554392 date "2008-07-17" @default.
W2004554392 modified "2023-10-15" @default.
W2004554392 title "Femtosecond laser ablation inductively coupled plasma mass spectrometry: Fundamentals and capabilities for depth profiling analysis" @default.
W2004554392 cites W1580725815 @default.
W2004554392 cites W1836770401 @default.
W2004554392 cites W1952861035 @default.
W2004554392 cites W1954964785 @default.
W2004554392 cites W1964002917 @default.
W2004554392 cites W1967205561 @default.
W2004554392 cites W1968256284 @default.
W2004554392 cites W1971898783 @default.
W2004554392 cites W1973810497 @default.
W2004554392 cites W1974879535 @default.
W2004554392 cites W1976966245 @default.
W2004554392 cites W1978784501 @default.
W2004554392 cites W1981637441 @default.
W2004554392 cites W1983357914 @default.
W2004554392 cites W1986916716 @default.
W2004554392 cites W1987733973 @default.
W2004554392 cites W1991110094 @default.
W2004554392 cites W1992986179 @default.
W2004554392 cites W1993564178 @default.
W2004554392 cites W1994446587 @default.
W2004554392 cites W1996925747 @default.
W2004554392 cites W1999878041 @default.
W2004554392 cites W2000886616 @default.
W2004554392 cites W2003131779 @default.
W2004554392 cites W2006324959 @default.
W2004554392 cites W2007385436 @default.
W2004554392 cites W2007506878 @default.
W2004554392 cites W2009326378 @default.
W2004554392 cites W2010301198 @default.
W2004554392 cites W2011168497 @default.
W2004554392 cites W2011185716 @default.
W2004554392 cites W2017036053 @default.
W2004554392 cites W2019144853 @default.
W2004554392 cites W2019668710 @default.
W2004554392 cites W2021001752 @default.
W2004554392 cites W2022651139 @default.
W2004554392 cites W2023197599 @default.
W2004554392 cites W2024640294 @default.
W2004554392 cites W2026036781 @default.
W2004554392 cites W2034459605 @default.
W2004554392 cites W2034904963 @default.
W2004554392 cites W2035013317 @default.
W2004554392 cites W2038688065 @default.
W2004554392 cites W2039635595 @default.
W2004554392 cites W2041486219 @default.
W2004554392 cites W2043702648 @default.
W2004554392 cites W2045776272 @default.
W2004554392 cites W2048041139 @default.
W2004554392 cites W2049366175 @default.
W2004554392 cites W2052807674 @default.
W2004554392 cites W2058642293 @default.
W2004554392 cites W2060244969 @default.
W2004554392 cites W2061039458 @default.
W2004554392 cites W2061740773 @default.
W2004554392 cites W2062824176 @default.
W2004554392 cites W2068530504 @default.
W2004554392 cites W2073369132 @default.
W2004554392 cites W2075382886 @default.
W2004554392 cites W2078822869 @default.
W2004554392 cites W2079141839 @default.
W2004554392 cites W2080271111 @default.
W2004554392 cites W2089627531 @default.
W2004554392 cites W2090293923 @default.
W2004554392 cites W2091379531 @default.
W2004554392 cites W2091551958 @default.
W2004554392 cites W2092026320 @default.
W2004554392 cites W2122923952 @default.
W2004554392 cites W2129332135 @default.
W2004554392 cites W2140935259 @default.
W2004554392 cites W2145159677 @default.
W2004554392 cites W2145342196 @default.
W2004554392 cites W2145920657 @default.
W2004554392 cites W2156108953 @default.
W2004554392 cites W2162644221 @default.
W2004554392 cites W2163685127 @default.
W2004554392 cites W2163930265 @default.
W2004554392 cites W2168828145 @default.
W2004554392 doi "https://doi.org/10.1002/mas.20180" @default.
W2004554392 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18636536" @default.
W2004554392 hasPublicationYear "2008" @default.
W2004554392 type Work @default.
W2004554392 sameAs 2004554392 @default.
W2004554392 citedByCount "88" @default.
W2004554392 countsByYear W20045543922012 @default.
W2004554392 countsByYear W20045543922013 @default.
W2004554392 countsByYear W20045543922014 @default.
W2004554392 countsByYear W20045543922015 @default.
W2004554392 countsByYear W20045543922016 @default.
W2004554392 countsByYear W20045543922017 @default.
W2004554392 countsByYear W20045543922018 @default.
W2004554392 countsByYear W20045543922019 @default.