Department of Earth Sciences, National Cheng Kung University, Tainan, Taiwan.
Talanta. 2010 Sep 15;82(4):1378-84. doi: 10.1016/j.talanta.2010.07.010. Epub 2010 Jul 31.
An improved technique for precise and accurate determination of boron isotopic composition in Na-rich natural waters (groundwater, seawater) and marine biogenic carbonates was developed. This study used a 'micro-sublimation' technique to separate B from natural sample matrices in place of the conventional ion-exchange extraction. By adjusting analyte to appropriate pH, quantitative recovery of boron can be achieved (>98%) and the B procedural blank is limited to <8 pg. An additional mass bias effect in MC-ICP-MS was observed which could not be improved via the standard-sample-standard bracketing or the 'pseudo internal' normalization by Li. Therefore a standard other than NBS SRM 951 was used to monitor plasma condition in order to maintain analytical accuracy. An isotope cross-calibration with results from TIMS shows that the space-charge mass bias on MC-ICP-MS can be successfully corrected using off-line mathematical manipulation. Several reference materials, including the seawater IAPSO and two groundwater standards IAEA-B-2 and IAEA-B-3, were used to validate this approach. We found that the delta(11)B of the reference coral JCp-1 was 24.22+/-0.28 per thousand, corresponding to seawater pH based on the coral delta(11)B-pH function.
开发了一种改进的技术,用于精确和准确地测定富钠天然水(地下水、海水)和海洋生物碳酸盐中的硼同位素组成。本研究使用“微升华”技术代替传统的离子交换提取,从天然样品基质中分离硼。通过将分析物调整到适当的 pH 值,可以实现硼的定量回收(>98%),硼的程序空白限制在<8 pg。在 MC-ICP-MS 中观察到额外的质量偏差效应,通过标准-样品-标准内标法或 Li 的“伪内标”归一化法无法改善。因此,使用除 NBS SRM 951 以外的标准品来监测等离子体状态,以保持分析准确性。与 TIMS 的结果进行同位素交叉校准表明,使用离线数学处理可以成功校正 MC-ICP-MS 的空间电荷质量偏差。使用了几种参考物质,包括海水 IAPSO 和两个地下水标准 IAEA-B-2 和 IAEA-B-3,来验证这种方法。我们发现,参考珊瑚 JCp-1 的 delta(11)B 为 24.22+/-0.28 per thousand,根据珊瑚 delta(11)B-pH 函数,对应海水 pH 值。
