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Murphy KE Beary ES Rearick MS Vocke RD 《Fresenius' Journal of Analytical Chemistry》2000,368(4):362-370
Lead (Pb) and cadmium (Cd) have been determined in six new environmental standard reference materials (SRMs) using isotope dilution inductively coupled plasma mass spectrometry (ID ICP-MS). The SRMs are the following: SRM 1944, New York-New Jersey Waterway Sediment, SRMs 2583 and 2584, Trace Elements in Indoor Dust, Nominal 90 mg/kg and 10,000 mg/kg Lead, respectively, SRMs 2586 and 2587, Trace Elements in Soil Containing Lead from Paint, Nominal 500 mg/kg and 3,000 mg/kg Lead, respectively, and SRM 2782, Industrial Sludge. The capabilities of ID ICP-MS for the certification of Pb and Cd in these materials are assessed. Sample preparation and ratio measurement uncertainties have been evaluated. Reproducibility and accuracy of the established procedures are demonstrated by determination of gravimetrically prepared primary standard solutions and by comparison with isotope dilution thermal ionization mass spectrometry (ID TIMS). Material heterogeneity was readily demonstrated to be the dominant source of uncertainty in the certified values. 相似文献
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A laboratory experiment was undertaken to investigate the behaviour of boron at theseawater-air interface under air flow conditions. Dried air at 25 and 35℃ was passed over or bub-bled through seawater at the same temperature. A combination of ice-chilled condensers and KOHimpregnated cellulose fibre filters was used to collect boron from the reacted air. When air strippedof boron was passed over the seawater, boron was found in the reacted air, and its concentrationwas higher in the higher temperature test. In the tests where air was bubbled through seawater theconcentration of boron in the reacted air was directly proportional to the air flow rate. In this situa-tion the boron in the reacted air was mainly introduced as a spray of microdroplets. Isotopic analy-sis of the collected boron in the non-bubbled tests yields fractionation factors which demonstratethat the lighter isotope, 10B, is enriched in the reacted air. The size of the fractionation changeswith temperature, ruling out a purely kinetic effect. 相似文献
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K. E. Murphy E. S. Beary M. S. Rearick R. D. Vocke 《Analytical and bioanalytical chemistry》2000,368(4):362-370
Lead (Pb) and cadmium (Cd) have been determined in six new environmental standard reference materials (SRMs) using isotope dilution inductively coupled plasma mass spectrometry (ID ICP-MS). The SRMs are the following: SRM 1944, New York-New Jersey Waterway Sediment, SRMs 2583 and 2584, Trace Elements in Indoor Dust, Nominal 90 mg/kg and 10,000 mg/kg Lead, respectively, SRMs 2586 and 2587, Trace Elements in Soil Containing Lead from Paint, Nominal 500 mg/kg and 3000 mg/kg Lead, respectively, and SRM 2782, Industrial Sludge. The capabilities of ID ICP-MS for the certification of Pb and Cd in these materials are assessed. Sample preparation and ratio measurement uncertainties have been evaluated. Reproducibility and accuracy of the established procedures are demonstrated by determination of gravimetrically prepared primary standard solutions and by comparison with isotope dilution thermal ionization mass spectrometry (ID TIMS). Material heterogeneity was readily demonstrated to be the dominant source of uncertainty in the certified values. 相似文献
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Determination of As, Cd, Cr, and Hg in SRM 2584 (trace elements in indoor dust) by high-resolution inductively coupled plasma mass spectrometry 总被引:2,自引:0,他引:2
Standard reference material (SRM) 2584 (Trace Elements in Indoor Dust) was developed as a reference standard for evaluating field methods and for validating laboratory and reference methods for the assessment of lead contamination and exposure. In addition to lead, the toxic trace elements As, Cd, Cr, and Hg, at approximately 17, 10, 140, and 5 microg g(-1), respectively, have been certified in the SRM. These four analytes were successfully determined by use of high-resolution inductively coupled plasma mass spectrometry (HR-ICP-MS). Isobaric interferences at masses of As and Cr were resolved by using the high resolution mode (nominal 8000) and the medium resolution mode (nominal 3000), respectively, of the instrument. The effects of a significant drift in analyte sensitivity in the course of measurement were rectified by use of internal standardization, single spike standard addition, and an optimized analysis sequence. The results were compared with those obtained by instrumental neutron activation analysis (INAA) and isotope dilution inductively coupled plasma mass spectrometry (ID-ICP-MS). The results for the quality control, SRM 2704 (Buffalo River Sediment), were in good agreement with the certified values, indicated by the uncertainty intervals of the measured values overlapping the certified intervals at 95% confidence level. 相似文献
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A structural failure problem was solved using an integrated and iterative program of testing and analysis. The steps taken in solving the problem were: analytical calculations; operational testing; qualifications of analytical results; problem identification; design of corrective action; and confirmatory testing. 相似文献
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Certification of standard reference material (SRM) 1941a, organics in marine sediment 总被引:2,自引:0,他引:2
Michele M. Schantz Bruce A. Benner Jr. Melinda J. Hays W. Robert Kelly Robert D. Vocke Jr. Rabia Demiralp Robert R. Greenberg Susannah B. Schiller Gunnar G. Lauenstein Stephen A. Wise 《Fresenius' Journal of Analytical Chemistry》1995,352(1-2):166-173
SRM 1941a, Organics in Marine Sediment, has been recently issued with certified concentrations for 23 polycyclic aromatic hydrocarbons, 21 polychlorinated biphenyl congeners, 6 chlorinated pesticides, and sulfur. Noncertified concentrations have been also reported for additional PAHs, PCB congeners, and chlorinated pesticides and for percent total organic carbon (TOC), aliphatic hydrocarbons, and trace elements. SRM 1941a is the most extensively characterized natural matrix SRM issued by the National Institute of Standards and Technology (NIST). 相似文献
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C. S. Phinney K. E. Murphy M. J. Welch P. M. Ellerbe S. E. Long K. W. Pratt S. B. Schiller L. T. Sniegoski M. S. Rearick T. W. Vetter R. D. Vocke 《Fresenius' Journal of Analytical Chemistry》1998,361(2):71-80
The National Institute of Standards and Technology (NIST) has developed several Standard Reference Materials (SRMs) based
on human serum. NIST SRM 909b, Human Serum, is a lyophilized human serum material with concentrations for seven organic and
six inorganic analytes at two levels certified solely by definitive methods (DMs). This material provides the vehicle by which
high precision, high accuracy measurements made with DMs at NIST can be transferred through the measurement hierarchy to other
laboratories. Isotope dilution gas chromatographic-mass spectrometric (GC-IDMS) methods were applied to measure cholesterol,
creatinine, glucose, urea, uric acid, triglycerides, and total glycerides. Thermal ionization isotope dilution mass spectrometry
(TI-IDMS) was used for determination of lithium, magnesium, potassium, calcium, and chloride. In addition, chloride was determined
by coulometry, providing a comparison between two DMs. Sodium, which lacks a stable isotope that would permit isotope dilution
mass spectrometric (IDMS) measurement, was determined by gravimetry. SRM 909b includes certified values for total glycerides
and triglycerides, which were not certified in the previous lot of this material (SRM 909a). Improvement in uniformity of
vial fill weight in the production of SRM 909b resulted in smaller certified uncertainties over previous freeze-dried serum
SRMs. Uncertainties at the 99% level of confidence for relative expanded uncertainty (%) for certification of the organic
analytes on a mmol/L/g basis ranged from 0.44% for urea (level II) to 5.04% for glucose (level II). (In-house studies have
shown glucose to be a relatively unstable analyte in similar lyophilized serum materials, degrading at about 1% per year.)
Relative expanded uncertainties (99% C.I.) for certification of inorganic analytes on a mmol/L/g basis ranged from 0.25% for
chloride (level I) to 0.49% for magnesium (level II).
Received: 30 July 1997 / Revised: 24 October 1997 / Accepted: 31 October 1997 相似文献
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