铋试金-石墨炉原子吸收光谱法测定黑色页岩中痕量金铂钯

doi:10.13228/j.boyuan.issn1000-7571.011905

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摘要黑色页岩中Au、Pt和Pd含量较低且分布不均匀,因此测定时需要辅以合适的分离富集方法。本文通过矿物解离度分析仪研究了黑色页岩样品的组成结构;利用Ag能与Au、Pt和Pd形成合金的原理,以Bi₂O₃作为捕集剂,在试金配方中添加Ag作为保护剂进行熔融,增加了铋扣的稳定性;同时在试金配料中加入KNO₃以将基体中的S氧化成硫酸盐进入熔渣;得到的铋扣经过灰吹可得到银合粒,据此,实现了对黑色页岩中Au、Pt和Pd的分离富集。采用先加入HNO₃再加入HCl的方式溶解银合粒,建立了石墨炉原子吸收光谱法(GF-AAS)测定黑色页岩中Au、Pt和Pd的方法。对试金配料中面粉和Bi₂O₃的用量进行了优化,确定采用8 g面粉和100 g Bi₂O₃。试验表明,在试金配方中加入200 μL 20 g/L Ag银标准溶液,在Bi完全吹尽后,形成的银合粒形状规则、光滑圆整、大小适中,未出现散珠现象。在选定的实验条件下,用Au、Pt和Pd的吸光度与其对应的质量浓度绘制校准曲线,决定系数为0.999 7～0.999 9,特征浓度为0.338～2.15 ng/mL。将实验方法应用于黑色页岩贵金属成分分析标准物质中Au、Pt和Pd的测定,测定值与认定值基本一致。按照实验方法对贵州省纳雍地区的黑色页岩样品进行精密度和加标回收试验,测定结果的相对标准偏差(RSD,n=6)在3.1%~5.1%之间,加标回收率在92%～109%之间。

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	毛香菊
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关键词 ：铋试金, 黑色页岩, 金, 铂, 钯, 石墨炉原子吸收光谱法(GF-AAS), 氧化铋, 硝酸钾

Abstract：The contents of Au, Pt and Pd in black shale are relatively low and their distribution is nonuniform. Therefore, a suitable separation and enrichment method should be auxiliary for determination.The composition and structure of black shale samples were analyzed by mineral liberation analyzer. Based on the principle that Ag could form alloys with Au, Pt and Pd, Ag was added as a protective agent to the fire assay ingredient for melting with Bi₂O₃ as collector, which enhanced the stability of bismuth button. Meanwhile, KNO₃ was added into the fire assay ingredient to oxidize S in matrix to sulfates, which entered into melting slag. The resultant bismuth button was treated by cupellation, and the silver composite granule was obtained. Therefore, the separation and enrichment of Au, Pt and Pd in black shale were realized. After the silver composite granule was dissolved by adding HNO₃ and then HCl, a method for the determination of Au, Pt and Pd in black shale was established by graphite furnace atomic absorption spectrometry(GF-AAS). The dosages of flour and Bi₂O₃ in the fire assay ingredient were optimized, then 8 g of flour and 100 g of Bi₂O₃ were used. The results showed that when 200 μL of 20 g/L Ag standard solution was added into the fire assay ingredient, the formed silver composite granule had regular shape, smooth surface and moderate size without loose bead phenomenon after Bi was blown completely. Under the selected experimental conditions, the calibration curves were drawn with the absorbances of Au, Pt and Pd and their corresponding mass concentrations. The correlation coefficients were between 0.999 7 and 0.999 9. The characteristic concentrations were between 0.338 ng/mL and 2.15 ng/mL. The proposed method was applied for determination of Au, Pt and Pd in certified reference material of black shale for composition analysis of precious metals. The results were basically consistent with the certified values. The precision and recovery tests of black shale samples from Nayong Area of Guizhou Province were conducted according to the proposed method. The relative standard deviations(RSD, n=6) of determination results were between 3.1% and 5.1%, and the recoveries were between 92% and 109%.

Key words： bismuth fire assay black shale gold platinum palladium graphite furnace atomic absorption spectrometry(GF-AAS) bismuth oxide potassium nitrate

收稿日期: 2023-01-07

ZTFLH:	O657.31
	TF03+1

基金资助:国家自然科学基金项目(22106148);中国地质调查局地质调查二级项目(DD20221782)

通讯作者: 倪文山(1980—),男,正高级工程师,大学本科,主要从事无机元素和分析方法研究;E-mail:44622725@sina.com

作者简介: 毛香菊(1983—),女,正高级工程师,博士,主要从事贵金属元素和分析方法研究;E-mail:nancy_mao_mao@163.com

引用本文:

毛香菊, 姚明星, 郭晓瑞, 王甜甜, 倪文山, 程诚. 铋试金-石墨炉原子吸收光谱法测定黑色页岩中痕量金铂钯[J]. 冶金分析, 2023, 43(8): 24-30. MAO Xiangju, YAO Mingxing, GUO Xiaorui, WANG Tiantian, NI Wenshan, CHENG Cheng. Determination of trace gold,platinum and palladium in black shale by graphite furnace atomic absorption spectrometry with bismuth fire assay. , 2023, 43(8): 24-30.

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[1] 冯晓军,薛菁,杨晓燕,等.电感耦合等离子体原子发射光谱法测定云南昆阳磷矿黑色页岩中钒钼镍[J].冶金分析,2018,38(9):53-58.
FENG Xiaojun,XUE Jing,YANG Xiaoyan,et al.Determination of vanadium,molybdenum and nickel in black shale of Kunyang phosphate mine in Yunnan by inductively coupled plasma atomic emission spectrometry[J].Metallurgical Analysis,2018,38(9):53-58.
[2] 李志伟,邰自安,任文岩,等.微波消解电感耦合等离子体质谱法测定黑色页岩中稀有稀土元素[J].岩矿测试,2010,29(3):259-262.
LI Zhiwei,TAI Zian,REN Wenyan,et al.Determination of rare and rare earth elements in black shales by inductively coupled plasma mass spectrometry with microwave digestion[J].Rock and Mineral Analysis,2010,29(3):259-262.
[3] 杨连升,周明忠,熊康宁,等.贵州黑色页岩土壤地球化学特征[J].矿物岩石地球化学通报,2020,39(5):1023-1037.
YANG Liansheng,ZHOU Mingzhong,XIONG Kang-ning,et al.Geochemical characteristics of black shale soil in Guizhou Province,China[J].Bulletin of Mineralogy,Petrology and Geochemistry,2020,39(5):1023-1037.
[4] G Romulus,A B Sargonj.An ion-exchange method for selective separation of palladium, platinum and rhodium from solutions obtained by leaching automotive catalytic converters[J].Talanta,1995,42(2):249-255.
[5] S E Jackson,B J Fryer,W Gosse.Determination of the precious metals in geological materials by inductively coupled plasma-mass spectrometry (ICP-MS) with nickel sulphide fire-assay collection and tellurium coprecipitation[J].Chemical Geology,1990(83):119-132.
[6] 余建民.贵金属萃取化学[M].2版.北京:化学工业出版社.
[7] 施意华,杨仲平,熊传信,等.蒸馏分离-电感耦合等离子体质谱法测定地球化学样品中痕量钌和锇[J].岩矿测试,2010,29(4):350-354.
SHI Yihua,YANG Zhongping,XIONG Chuanxin,et al.Determination of trace ruthenium and osmium in geochemical samples by inductively coupled plasma-mass spectrometry with distillation separation[J].Rock and Mineral Analysis,2010,29(4):350-354.
[8] 张彦斌,程忠洲,李华.锍试金富集-电感耦合等离子体质谱法测定地质样品中铂钯铑铱[J].冶金分析,2006,26(4):13-16.
ZHANG Yanbin,CHENG Zhongzhou,LI Hua.Determination of platinum,palladium,rhodium and iridium in geological samples by inductively coupled plasma-mass spectrometry after the preconcentration with nickel sulphide fire assay[J].Metallurgical Analysis,2006,26(4):13-16.
[10] 孙启亮,毛香菊,郭晓瑞,等.铅试金富集-高分辨率连续光源石墨炉原子吸收光谱法测定地球化学样品中痕量金铂钯[J].冶金分析,2021,41(7):10-16.
SUN Qiliang,MAO Xiangju,GUO Xiaorui,et al.Determination of trace gold,platinum and palladium in geological samples by lead fire assay pre-concentration high resolution continuum source graphite furnace atomic absorption spectrometry[J].Metallurgical Analysis,2021,41(7):10-16.
[11] NI Wenshan,MAO Xiangju,ZHANG Hongli,et al.Lead fire assay preconcentration and high resolution continuum source graphite furnace atomic absorption spectrometry for the determination of ultra-trace amounts of Au,Ir,Pd,Pt and Rh in rocks and minerals[J].Spectrochimica Acta Part B:Atomic Spectroscopy,2019,158:105643.
[12] NI Wenshan,ZHANG Hongli,MAO Xiangju,et al.Simultaneous determination of ultra-trace Au,Pt,Pd,Ru,Rh,Os and Ir in geochemical samples by KED-ICP-MS combined with Sb-Cu fire assay and microwave digestion[J].Microchemical Journal,2020,158:105197.
[13] 王君玉,孙自军,袁润蕾,等.锡试金富集-电感耦合等离子体质谱法测定黑色页岩中的铂族元素[J].理化检验(化学分册),2013,49(8):972-975,978.
WANG Junyu,SUN Zijun,YUAN Runlei,et al.ICP-MS determination of palladium metals in black shale enriched by tin fire assay[J].Physical Testing and Chemical Analysis (Part B:Chemical Analysis),2013,49(8):972-975,978.
[14] 张石林,屠惠民.铋试金富集矿石中贵金属的研究[C]//一九八零年全国岩矿分析经验交流会论文集.北京:地质出版社,1982:394-398.
[15] 赵素利,张欣,温宏利,等.锍镍试金富集-电感耦合等离子体质谱法测定黑色页岩中的铂族元素[J].岩矿测试,2011,30(6):723-726.
ZHAO Suli,ZHANG Xin,WEN Hongli,et al.Determination of the platinum group elements in black shale by inductively coupled plasma-mass spectrometry with nickel sulphide fire-assay[J].Rock and Mineral Analysis,2011,30(6):723-726.