Evaluation of the state-of-the-art measurement capabilities for selected PBDEs and decaBB in plastic by the international intercomparison CCQM-P114 |
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Authors: | R. Zeleny S. Voorspoels M. Ricci R. Becker C. Jung W. Bremser M. Sittidech N. Panyawathanakit W. F. Wong S. M. Choi K. C. Lo W. Y. Yeung D. H. Kim J. Han J. Ryu S. Mingwu W. Chao M. M. Schantz K. A. Lippa S. Matsuyama |
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Affiliation: | 1. European Commission, Joint Research Centre, Institute for Reference Materials and Measurements (IRMM), Retieseweg 111, 2440, Geel, Belgium 9. Flemish Institute for Technological Research (VITO), Boeretang 200, 2400, Mol, Belgium 2. BAM Bundesanstalt für Materialforschung und-prüfung, Richard-Willstaetter-Strasse 11, 12489, Berlin, Germany 3. Department of Science Service (DSS), Rama 6 Road, Ratchathewi, Bangkok, 10400, Thailand 4. Government Laboratory, 88 Chung Hau Street, Ho Man Tin, Kowloon, Hong Kong, S. A. R. 5. Korea Research Institute of Standards and Science (KRISS), 209 Gajeong-Ro, Yuseong-Gu, Daejeon, 305-340, Republic of Korea 6. National Institute of Metrology (NIM), No.18, Bei San Huan Dong Lu, Chaoyang Dist, Beijing, 100013, China 7. Analytical Chemistry Division, National Institute of Standards and Technology (NIST), 100 Bureau Drive, Gaithersburg, MD, 20899-8392, USA 8. National Institute of Metrology of Japan (NMIJ) National Institute of Advanced Industrial Science and Technology (AIST), 1-1-1 Higashi, Tsukuba, Ibaraki, 305-8565, Japan
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Abstract: | An international intercomparison involving eight national metrology institutes (NMIs) was conducted to establish their current measurement capabilities for determining five selected congeners from the brominated flame retardant classes polybrominated diphenyl ethers and polybrominated biphenyls. A candidate reference material consisting of polypropylene fortified with technical mixtures of penta-, octa- and decabromo diphenyl ether and decabromo biphenyl, which was thoroughly assessed for material homogeneity and stability, was used as study material. The analytical procedures applied by the participants differed with regard to sample pre-treatment, extraction, clean-up, employed calibrants and type of calibration procedure as well as regarding analytical methods used for separation, identification and quantification of the flame retardant congeners (gas chromatography coupled to an electron capture detector (GC-ECD), gas chromatography-mass spectrometry in the electron ionisation mode (GC-EI-MS), gas chromatography-mass spectrometry in the electron capture negative ionisation mode (GC-ECNI-MS), and liquid chromatography-inductive coupled plasma-mass spectrometry (LC-ICP-MS)). The laboratory means agreed well with relative standard deviations of the mean of means of 1.9%, 4.8%, 5.5% and 5.4% for brominated diphenyl ether (BDE) 47, 183 and 209 and for the brominated biphenyl (BB) congener 209, respectively. For BDE 206, a relative standard deviation of 28.5% was obtained. For all five congeners, within-laboratory relative standard deviations of six measurements obtained under intermediate precision conditions were between 1% and 10%, and reported expanded measurements uncertainties typically ranged from 4% to 10% (8% to 14% for BDE 206). Furthermore, the results are in good agreement with those obtained in the characterization exercise for determining certified values for the flame retardant congeners in the same material. The results demonstrate the state-of-the-art measurement capabilities of NMIs for quantifying representative BDE congeners and BB 209 in a polymer. The outcome of this intercomparison (pilot study) in conjunction with possible improvements for employing exclusively calibrants with thoroughly assessed purity suggests that a key comparison aiming at underpinning calibration and measurement capability (CMC) claims of NMIs can be conducted. Figure Mass fraction of deca-brominated diphenyl ether (BDE 209) in the polypropylene study material analysed in the international intercomparison CCQM-P114 |
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