FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2775255093> ?p ?o ?g. }

• W2775255093 endingPage "238" @default.
• W2775255093 startingPage "223" @default.
• W2775255093 abstract "This work presents an evaluation of various methods for in situ high-precision Sr and Pb isotopic determination in archaeological glass (containing 100–500 μg g−1 target element) by nanosecond laser ablation multi-collector-inductively coupled plasma-mass spectrometry (ns-LA-MC-ICP-MS). A set of four soda-lime silicate glasses, Corning A–D, mimicking the composition of archaeological glass and produced by the Corning Museum of Glass (Corning, New York, USA), were investigated as candidates for matrix-matched reference materials for use in the analysis of archaeological glass. Common geological reference materials with known isotopic compositions (USGS basalt glasses BHVO-2G, GSE-1G and NKT-1G, soda-lime silicate glass NIST SRM 610 and several archaeological glass samples with known Sr isotopic composition) were used to evaluate the ns-LA-MC-ICP-MS analytical procedures. When available, ns-LA-MC-ICP-MS results for the Corning glasses are reported. These were found to be in good agreement with results obtained via pneumatic nebulisation (pn) MC-ICP-MS after digestion of the glass matrix and target element isolation. The presence of potential spectral interference from doubly charged rare earth element (REE) ions affecting Sr isotopic determination was investigated by admixing Er and Yb aerosols by means of pneumatic nebulisation into the gas flow from the laser ablation system. It was shown that doubly charged REE ions affect the Sr isotope ratios, but that this could be circumvented by operating the instrument at higher mass resolution. Multiple strategies to correct for instrumental mass discrimination in ns-LA-MC-ICP-MS and the effects of relevant interferences were evaluated. Application of common glass reference materials with basaltic matrices for correction of ns-LA-MC-ICP-MS isotope data of archaeological glasses results in inaccurate Pb isotope ratios, rendering application of matrix-matched reference materials indispensable. Correction for instrumental mass discrimination using the exponential law, with the application of Tl as an internal isotopic standard element introduced by pneumatic nebulisation and Corning D as bracketing isotopic calibrator, provided the most accurate results for Pb isotope ratio measurements in archaeological glass. Mass bias correction relying on the power law, combined with intra-element internal correction, assuming a constant 88Sr/86Sr ratio, yielded the most accurate results for 87Sr/86Sr determination in archaeological glasses" @default.
• W2775255093 created "2017-12-22" @default.
• W2775255093 creator A5002207397 @default.
• W2775255093 creator A5006436141 @default.
• W2775255093 creator A5027226074 @default.
• W2775255093 creator A5067435398 @default.
• W2775255093 creator A5071685694 @default.
• W2775255093 creator A5083798274 @default.
• W2775255093 date "2018-01-15" @default.
• W2775255093 modified "2023-10-05" @default.
• W2775255093 title "Assessment of Nanosecond Laser Ablation Multi-Collector Inductively Coupled Plasma-Mass Spectrometry for Pb and Sr Isotopic Determination in Archaeological Glass: Mass Bias Correction Strategies and Results for Corning Glass Reference Materials" @default.
• W2775255093 cites W1055409377 @default.
• W2775255093 cites W1958608260 @default.
• W2775255093 cites W1962250945 @default.
• W2775255093 cites W1964818013 @default.
• W2775255093 cites W1974635970 @default.
• W2775255093 cites W1981432734 @default.
• W2775255093 cites W1982062399 @default.
• W2775255093 cites W1987734384 @default.
• W2775255093 cites W1989389026 @default.
• W2775255093 cites W1994630581 @default.
• W2775255093 cites W1995486102 @default.
• W2775255093 cites W1996505339 @default.
• W2775255093 cites W1998674866 @default.
• W2775255093 cites W2004271143 @default.
• W2775255093 cites W2010194005 @default.
• W2775255093 cites W2018598067 @default.
• W2775255093 cites W2021783911 @default.
• W2775255093 cites W2041409355 @default.
• W2775255093 cites W2043150001 @default.
• W2775255093 cites W2043335430 @default.
• W2775255093 cites W2044188192 @default.
• W2775255093 cites W2046780161 @default.
• W2775255093 cites W2051194356 @default.
• W2775255093 cites W2056403167 @default.
• W2775255093 cites W2059433589 @default.
• W2775255093 cites W2064163795 @default.
• W2775255093 cites W2069300217 @default.
• W2775255093 cites W2074919868 @default.
• W2775255093 cites W2082548735 @default.
• W2775255093 cites W2084942291 @default.
• W2775255093 cites W2089304930 @default.
• W2775255093 cites W2099129444 @default.
• W2775255093 cites W2102203714 @default.
• W2775255093 cites W2103467009 @default.
• W2775255093 cites W2110023988 @default.
• W2775255093 cites W2119757030 @default.
• W2775255093 cites W2122228928 @default.
• W2775255093 cites W2127888210 @default.
• W2775255093 cites W2131497882 @default.
• W2775255093 cites W2144507333 @default.
• W2775255093 cites W2152391078 @default.
• W2775255093 cites W2162925706 @default.
• W2775255093 cites W2171311515 @default.
• W2775255093 cites W2181374605 @default.
• W2775255093 cites W2182288360 @default.
• W2775255093 cites W2303069533 @default.
• W2775255093 cites W2345424187 @default.
• W2775255093 cites W2498283688 @default.
• W2775255093 cites W2588686219 @default.
• W2775255093 cites W2754366146 @default.
• W2775255093 doi "https://doi.org/10.1111/ggr.12202" @default.
• W2775255093 hasPublicationYear "2018" @default.
• W2775255093 type Work @default.
• W2775255093 sameAs 2775255093 @default.
• W2775255093 citedByCount "11" @default.
• W2775255093 countsByYear W27752550932018 @default.
• W2775255093 countsByYear W27752550932019 @default.
• W2775255093 countsByYear W27752550932020 @default.
• W2775255093 countsByYear W27752550932021 @default.
• W2775255093 countsByYear W27752550932022 @default.
• W2775255093 countsByYear W27752550932023 @default.
• W2775255093 crossrefType "journal-article" @default.
• W2775255093 hasAuthorship W2775255093A5002207397 @default.
• W2775255093 hasAuthorship W2775255093A5006436141 @default.
• W2775255093 hasAuthorship W2775255093A5027226074 @default.
• W2775255093 hasAuthorship W2775255093A5067435398 @default.
• W2775255093 hasAuthorship W2775255093A5071685694 @default.
• W2775255093 hasAuthorship W2775255093A5083798274 @default.
• W2775255093 hasConcept C106487976 @default.
• W2775255093 hasConcept C107872376 @default.
• W2775255093 hasConcept C113196181 @default.
• W2775255093 hasConcept C120665830 @default.
• W2775255093 hasConcept C121332964 @default.
• W2775255093 hasConcept C162356407 @default.
• W2775255093 hasConcept C165697059 @default.
• W2775255093 hasConcept C178790620 @default.
• W2775255093 hasConcept C185592680 @default.
• W2775255093 hasConcept C192562407 @default.
• W2775255093 hasConcept C199289684 @default.
• W2775255093 hasConcept C2777335606 @default.
• W2775255093 hasConcept C2779188808 @default.
• W2775255093 hasConcept C2993621735 @default.
• W2775255093 hasConcept C43617362 @default.
• W2775255093 hasConcept C520434653 @default.
• W2775255093 hasConceptScore W2775255093C106487976 @default.
• W2775255093 hasConceptScore W2775255093C107872376 @default.
• W2775255093 hasConceptScore W2775255093C113196181 @default.

• next