微波消解-化学蒸气发生-原子荧光光谱法同时测定铁矿石中的痕量砷和汞
Simultaneous Determination of Trace As and Hg in Iron Ores by Microwave Digestion-Chemical Vapor Generation-Atomic Fluorescence Spectrometry
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摘要: 采用HCl-HNO3混合酸(体积比1∶1)微波消解铁矿样品,在消解后的样品母液中直接加入硫脲-抗坏血酸,预还原五价砷为三价砷,消除铁和其他共存离子对砷、汞测定的干扰,采用化学蒸气发生-双道原子荧光光谱法同时测定铁矿石中的痕量砷和汞。结果表明5%的HCl-HNO3混合酸(体积比1∶1)、20 g/L硼氢化钾溶液能有效保证砷、汞双元素的同时测定,制备的砷、汞标准使用溶液在2~5℃下密闭保存,在245 d内具有稳定性。砷的检出限为0.085 μg/L,汞的检出限为0.008 μg/L。通过分析5个铁矿石有证标准物质,测定As的相对标准偏差为0.9%~5.5%,回收率为77.7%~105.4%,检测值与标准值吻合;测定Hg的相对标准偏差为1.1%~3.7%,回收率为86.2%~113.2%。本方法是以牺牲汞元素的检出限来实现砷、汞两元素的同时测定,是建立在砷、汞单独测定基础上的一种快速检测方法,经全国不同地区9家实验室采用5个标准样品进行协同实验验证,能够满足日常分析要求。Abstract: A new method is described for the simultaneous determination of trace As and Hg in iron ores by microwave-assisted digestion-Chemical Vapor Generation-Atomic Fluorescence Spectrometry. Samples were dissolved by 50% HCl-HNO3 mixed acids (V∶V=1∶1). The mixed solution of thiourea and ascorbic acid was directly added to the digestion solution in order to pre-reduce As from the pentavalent state to the trivalent state and eliminate interferences caused by iron ions and other coexisting ions. The results indicate that the effective determination can be obtained simultaneously for trace As and Hg in 5% HCl-HNO3 mixed acid (V∶V=1∶1) and 20 g/L KBH4 solution. As and Hg standard mixture solution with the concentration of ρ(As)=1000 μg/L and ρ(Hg)=20 μg/L was preserved in sealed condition (2-5℃) and stable in 245 days. The proposed method was applied to analyze the concentrations of As and Hg in five certified reference materials with satisfactory results. The detection limits of As and Hg were 0.085 μg/L and 0.008 μg/L, respectively. The RSDs of As were 0.9%-5.5% and recoveries were 77.7%-105.4%. The RSDs of Hg were 1.1%-3.7% and recoveries were 86.2%-113.2%. Collaborative experiments were carried out by 9 laboratories from different areas using 5 certified reference materials. This method gives a rapid simultaneous determination for both As and Hg which is based on methods of determination of As and Hg separately and reduces the detection limit of Hg. The low cost and easy operation of the method make it attractive for routine analysis of trace As and Hg in iron ores.
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任春生,付冉冉,王艳,廖海平,鲍惠君.谈进口铁矿石中的有害元素[J]. 金属矿山,2007,370(4): 6-8. 刘曙,李晨,闵红,金樱华,周海明,孙明星,蒋海宁. 进口煤炭中砷、汞检验监管的必要性研究[J].检验检疫学刊,2011,21(3): 53-56. 潘永平,海冰,徐修平.分光光度法直接测定铁矿中砷[J]. 冶金分析,2003,23(5): 54-55. 郑小敏,周礼仙,李弘.砷化氢分离-砷钼蓝分光光度法测定铁矿石中砷的国家标准方法探析[J].冶金分析,2010,30(7): 30-34. 鲍惠君,付冉冉,余清.微波消解-氢化物发生原子吸收法测定进口铁矿中的砷[J].金属矿山,2009,401(1): 79-80. 周耀明,余江,于磊,陈一清,罗岳平.ICP-AES测定高砷铁矿中砷和钒[J].光谱实验室,2007,24(5): 829-831. 陶俊. ICP-AES法测定铁矿石中钒、钛、铝、铜、锰、砷的研究[J].冶金分析,2005,25(4): 64-67. 李颖娜,罗望,张志众,徐志彬.铁矿石中铅、砷的X射线荧光光谱定性定量分析方法研究[J],唐山学院学报,2010,23(6): 64-66. Li Z X,Yang X M,Guo Y A,Li H T,Feng Y H. Simultaneous determination of arsenic, antimony, bismuth and mercury in geological materials by vapor generation-four-channel non-dispersive atomic fluore-scence spectrometry [J]. Talanta,2008,74: 915-921. Li Z X,Yang X M,Guo Y A,Li H T,Feng Y H. Simultaneous determination of arsenic, antimony, bismuth and mercury in geological materials by vapor generation-four-channel non-dispersive atomic fluore-scence spectrometry [J]. Talanta,2008,74: 915-921.
Li Z X, Guo Y A. Simultaneous determination of trace arsenic, antimony, bismuth and selenium in biological samples by hydride generation-four-channel atomic fluorescence spectrometry [J]. Talanta,2005,65: 1318-1325. Li Z X, Guo Y A. Simultaneous determination of trace arsenic, antimony, bismuth and selenium in biological samples by hydride generation-four-channel atomic fluorescence spectrometry [J]. Talanta,2005,65: 1318-1325.
Chen M L, Zou A M, Yu Y L, He R H. Hyphenation of flow injection/sequential injection with chemical hydride/vapor generation atomic fluorescence spectrometry [J]. Talanta,2007,73: 599-605. Chen M L, Zou A M, Yu Y L, He R H. Hyphenation of flow injection/sequential injection with chemical hydride/vapor generation atomic fluorescence spectrometry [J]. Talanta,2007,73: 599-605.
岩石矿物分析编写组.岩石矿物分析(第一分册)[M].3版.北京:地质出版社,1991: 502. 马玲,查立新,冯玲玲,刘文长.氢化物发生-原子荧光光谱法测定铜矿石中的砷锑铋[J].岩矿测试,2009,28(5): 497-498. 袁爱萍,贺大鹏,龙玉珊,汪静玲.氢化物发生-原子荧光光谱法同时测定滑石中砷和汞[J].岩矿测试,2008,27(5): 389-391. 袁爱萍,唐艳霞,黄玉龙,汪静玲,覃然,吴健玲,蒙文飞.氢化物-原子荧光法测定锑精矿中痕量砷和汞的研究[J].光谱学与光谱分析,2006,26(8): 1553-1556. 苏明跃,杨丽飞,郭芬.高压密封微波消解-氢化物发生原子荧光光谱法测定锰矿中砷和汞含量[J].冶金分析,2010,30(12): 39-43. 王云玲,武洋,杜少文,刚绪军.微波溶样原子荧光法测定化探样品中的砷、锑、铋和汞[J].黄金,2007,28(1): 59-60. 张锂,韩国才.增压微波消解-氢化物-原子荧光光谱法测定铁矿石中的砷[J].矿物岩石,2006,26(1): 98-100. 杨毅,刘英波,王建琴.原子荧光光谱法测定铁矿石中砷的研究[J]. 分析试验室,2008,28: 446-447. 邱志君,付冉冉,应海松,康继韬.原子荧光光谱法测定铁矿石中的汞[J]. 金属矿山,2009(8): 66-68. 苏明跃,陈广志,王晶,姚传刚.水浴消解-顺序注射-氢化物发生原子荧光光谱法测定铁矿石中砷和汞[J]. 岩矿测试,2011,30(2): 210-213. 徐国栋,葛建华,贾慧娴,杜谷,程江,董俊.水浴浸提-氢化物发生-原子荧光光谱法同时测定地质样品中痕量砷和汞[J].岩矿测试,2010,29(4): 391-394. ISO GUIDE 35—2006,Reference Materials; General and Statistical Principles for Certification[S]. ISO GUIDE 35—2006,Reference Materials; General and Statistical Principles for Certification[S].
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