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SLRS-6: River Water Certified Reference Material for Trace Metals and other Constituents

From National Research Council Canada

Alternative titleSLRS-6 : Matériau de référence pour les traces de métaux et autres constituants dans les eaux fluviales
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DOIResolve DOI: https://doi.org/10.4224/crm.2015.slrs-6
AuthorSearch for: 1ORCID identifier: https://orcid.org/0000-0002-4351-2503; Search for: 1; Search for: 1ORCID identifier: https://orcid.org/0000-0002-1167-6474; Search for: 1ORCID identifier: https://orcid.org/0000-0001-9908-9858; Search for: 1; Search for: 1ORCID identifier: https://orcid.org/0000-0002-3349-5535; Search for: 1ORCID identifier: https://orcid.org/0000-0002-2377-2615; Search for: 1ORCID identifier: https://orcid.org/0000-0002-3376-0722; Search for: 1
Affiliation
  1. National Research Council of Canada
Format3D, Material
SubjectCanadian reference material; SLRS-6; trace metals; river water
Abstract
Certified values for the mass fraction and concentration of trace metals and other constituents have been established for this river water certified reference material (SLRS-6).
Analytes
View analytes
AnalyteQuantityValueExpanded uncertaintyUnitType
aluminiummass fraction33.92.2µg/kgcertified
aluminiummass concentration33.82.2µg/Lcertified
antimonymass fraction0.33770.0058µg/kgcertified
antimonymass concentration0.33720.0058µg/Lcertified
arsenicmass fraction0.570.08µg/kgcertified
arsenicmass concentration0.570.08µg/Lcertified
bariummass fraction14.30.48µg/kgcertified
bariummass concentration14.280.48µg/Lcertified
cadmiummass fraction0.00630.0014µg/kgcertified
cadmiummass concentration0.00630.0014µg/Lcertified
calciummass fraction8770200µg/kgcertified
calciummass concentration8760200µg/Lcertified
chromiummass fraction0.2520.012µg/kgcertified
chromiummass concentration0.2520.012µg/Lcertified
coppermass fraction241.8µg/kgcertified
coppermass concentration23.91.8µg/Lcertified
ironmass fraction84.53.6µg/kgcertified
ironmass concentration84.33.6µg/Lcertified
leadmass fraction0.170.026µg/kgcertified
leadmass concentration0.170.026µg/Lcertified
magnesiummass fraction213758µg/kgcertified
magnesiummass concentration213358µg/Lcertified
manganesemass fraction2.120.1µg/kgcertified
manganesemass concentration2.120.1µg/Lcertified
molybdenummass fraction0.2150.018µg/kgcertified
molybdenummass concentration0.2150.018µg/Lcertified
nickelmass fraction0.6170.022µg/kgcertified
nickelmass concentration0.6160.022µg/Lcertified
potassiummass fraction65254µg/kgcertified
potassiummass concentration65154µg/Lcertified
sodiummass fraction2770220µg/kgcertified
sodiummass concentration2760220µg/Lcertified
strontiummass fraction40.720.32µg/kgcertified
strontiummass concentration40.660.32µg/Lcertified
uraniummass fraction0.06990.0034µg/kgcertified
uraniummass concentration0.06980.0034µg/Lcertified
vanadiummass fraction0.3520.006µg/kgcertified
vanadiummass concentration0.3510.006µg/Lcertified
zincmass fraction1.760.12µg/kgcertified
zincmass concentration1.760.12µg/Lcertified
berylliummass fraction0.00660.0022µg/kgreference
berylliummass concentration0.00660.0022µg/Lreference
cobaltmass fraction0.0530.012µg/kgreference
cobaltmass concentration0.0530.012µg/Lreference
Publication date
PublisherNational Research Council of Canada
Copyright statement
  • © 2015 National Research Council of Canada
Access condition
References
View items (2)
  1. Guide to the expression of uncertainty in measurement (GUM) (1 January 1993). .
  2. DerSimonian, Rebecca, and Nan Laird. ‘Meta-Analysis in Clinical Trials’. Controlled Clinical Trials 7, no. 3 (September 1986): 177–88. .
Referenced by
View items (5)
  1. Nadeau, Kenny, Zoltán Mester, and Lu Yang. ‘The Direct and Accurate Determination of Major Elements Ca, K, Mg and Na in Water by HR-ICPMS’. Scientific Reports 8, no. 1 (10 December 2018). https://doi.org/10.1038/s41598-018-34028-z.
  2. Hu, Jing, Enea Pagliano, Xiandeng Hou, Chengbin Zheng, Lu Yang, and Zoltan Mester. ‘Sub-Ppt Determination of Butyltins, Methylmercury and Inorganic Mercury in Natural Waters by Dynamic Headspace in-Tube Extraction and GC-ICPMS Detection’. Journal of Analytical Atomic Spectrometry 32, no. 12 (2017): 2447–54. https://doi.org/10.1039/c7ja00296c.
  3. Arantes de Carvalho, Gabriel Gustinelli, Pedro Vitoriano Oliveira, and Lu Yang. ‘Determination of Europium Isotope Ratios in Natural Waters by MC-ICP-MS’. Journal of Analytical Atomic Spectrometry 32, no. 5 (2017): 987–95. https://doi.org/10.1039/c7ja00020k.
  4. Asadi, Mohammad, Shayessteh Dadfarnia, and Ali Mohammad Haji Shabani. ‘Determination of Cadmium by Electrothermal Atomic Absorption Spectrometry after Its Separation and Preconcentration by Syringe to Syringe Dispersive Liquid Phase Microextraction-Solidified Floating Organic Drop’. Analytical and Bioanalytical Chemistry Research 4, no. 2 (December 2017). https://doi.org/10.22036/abcr.2017.83532.1145.
  5. Gao, Ying, Ralph E. Sturgeon, Zoltán Mester, Xiandeng Hou, Chengbin Zheng, and Lu Yang. ‘Direct Determination of Trace Antimony in Natural Waters by Photochemical Vapor Generation ICPMS: Method Optimization and Comparison of Quantitation Strategies’. Analytical Chemistry 87, no. 15 (22 July 2015): 7996–8004. https://doi.org/10.1021/acs.analchem.5b02001.
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CollectionCanadian Reference Materials and Methods
Record identifierdaa251ad-9dca-404f-902e-cd11144dd04d
Record created2019-01-28
Record modified2024-06-25
Date modified: