Fusion method for sample preparation for isotopic composition determination of boron in refractory materials by thermal ionization mass spectrometry with validation using dissolved and purified samples

Various refractory samples of boron such as titanium borides, rare earth borides, boron carbides having natural and non-natural isotopic composition were analysed by thermal ionization mass spectrometry as Na2BO2+ ions. Samples were fused with Na2CO3 directly on the filament after adjusting the B/Na...

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Veröffentlicht in:International journal of mass spectrometry 2021-09, Vol.467, p.116624, Article 116624
Hauptverfasser: Bhushan, K. Sasi, Goswami, Preeti G., Venkatesh, K., Kumar, Sanjukta A., Rao, Radhika M.
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Sprache:eng
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Zusammenfassung:Various refractory samples of boron such as titanium borides, rare earth borides, boron carbides having natural and non-natural isotopic composition were analysed by thermal ionization mass spectrometry as Na2BO2+ ions. Samples were fused with Na2CO3 directly on the filament after adjusting the B/Na mole ratio to 2 and in certain cases modifications in the loading technique were required to obtain precise 10B/11B isotopic ratio. A few of the samples expected to have natural 10B/11B ratio were observed to be slightly enriched in 10B. Dissolved samples as well as boron purified by extraction with 5% 2-Ethyl Hexane Diol(EHD) were analysed for 10B/11B ratio to ascertain the accuracy of the results obtained by the direct fusion method. Precision of about 0.02% (1RSD) was obtained for 10B/11B isotopic ratio measured in all the three types of samples. A good agreement of the dissolved sample and purified boron fraction with the directly fused sample validated the direct fusion method as a fast and reliable technique for isotopic analysis of boron in refractory samples. •Direct fusion technique for determination of 10B/11B ratio in refractory materials by Thermal ionization Mass Spectrometry.•The samples were fused with sodium carbonate directly on the filament for formation of Na2BO2+.•Validation of the direct fusion technique by analyses of dissolved samples and boron purified by solvent extraction.•The method is fast as it avoids lengthy dissolution procedures and reliable as it gives good precision and accuracy.•The 10B/11B ratios measured by TIMS are used as a reference for samples analysed by nondestructive techniques like PIGE.
ISSN:1387-3806
1873-2798
DOI:10.1016/j.ijms.2021.116624