Hintelmann Holger, Lu ShengYong
Trent University, Department of Chemistry, 1600 West Bank Drive, Peterborough, ON, Canada K9J 7B8.
Analyst. 2003 Jun;128(6):635-9. doi: 10.1039/b300451a.
Variations in Hg isotope ratios in cinnabar ores obtained from different countries were detected by high precision isotope ratio measurements using multi-collector inductively coupled mass spectrometry (MC-ICP-MS). Values of delta198/202Hg varied from 0.0-1.3 percent per thousand relative to a NIST SRM 1641d Hg solution. The typical external uncertainty of the delta values was 0.06 to 0.26 percent per thousand. Hg was introduced into the plasma as elemental Hg after reduction by sodium borohydride. A significant fractionation of lead isotopes was observed during the simultaneous generation of lead hydride, preventing normalization of the Hg isotope ratios using the measured 208/206Pb ratio. Hg ratios were instead corrected employing the simultaneously measured 205/203T1 ratio. Using a 10 ng ml(-1) Hg solution and 10 min of sampling, introducing 60 ng of Hg, the internal precision of the isotope ratio measurements was as low as 14 ppm. Absolute Hg ratios deviated from the representative IUPAC values by approximately 0.2% per u. This observation is explained by the inadequacy of the exponential law to correct for mass bias in MC-ICP-MS measurements. In the absence of a precisely characterized Hg isotope ratio standard, we were not able to determine unambiguously the absolute Hg ratios of the ore samples, highlighting the urgent need for certified standard materials.
通过使用多接收电感耦合等离子体质谱仪(MC-ICP-MS)进行高精度同位素比率测量,检测了从不同国家获得的朱砂矿石中汞同位素比率的变化。相对于NIST SRM 1641d汞溶液,δ198/202Hg值变化范围为千分之0.0 - 1.3。δ值的典型外部不确定度为千分之0.06至0.26。硼氢化钠还原后,汞以元素汞的形式引入等离子体。在同时生成氢化铅的过程中,观察到铅同位素的显著分馏,这使得无法使用测量的208/206Pb比率对汞同位素比率进行归一化。取而代之的是,使用同时测量的205/203Tl比率对汞比率进行校正。使用10 ng ml(-1)的汞溶液并采样10分钟,引入60 ng汞,同位素比率测量的内部精度低至14 ppm。绝对汞比率相对于代表性的IUPAC值每单位约偏差0.2%。这一观察结果可通过指数定律在MC-ICP-MS测量中校正质量偏差的不足来解释。在没有精确表征的汞同位素比率标准的情况下,我们无法明确确定矿石样品的绝对汞比率,这突出了对认证标准物质的迫切需求。
