化学分析计量
化學分析計量
화학분석계량
CHEMICAL ANALYSIS AND METERAGE
2014年
4期
34-37
,共4页
金%水浴加热%石墨炉原子吸收法%化探样品
金%水浴加熱%石墨爐原子吸收法%化探樣品
금%수욕가열%석묵로원자흡수법%화탐양품
gold%water bath heating%GFAAS%geochemical explpration sample
以王水、氟化钾、Fe3+溶液为溶剂,对化探样品进行水浴加热分解1.5 h,经泡沫塑料吸附后,于90℃以上硫脲溶液中解吸20 min,然后采用石墨炉原子吸收光谱仪测定其中的金含量。对仪器分析条件进行了优化。金的质量分数在0.1~100.0 ng/g范围内与吸光度呈良好的线性,线性相关系数r2=0.9993,检出限为0.100 ng/g。该方法对金标准物质测定结果的相对标准偏差为5.96%~9.25%(n=12),对国家一级标准物质进行分析,测定结果与标准值相符合。该方法满足1∶50000化探样品中痕量金的分析要求。
以王水、氟化鉀、Fe3+溶液為溶劑,對化探樣品進行水浴加熱分解1.5 h,經泡沫塑料吸附後,于90℃以上硫脲溶液中解吸20 min,然後採用石墨爐原子吸收光譜儀測定其中的金含量。對儀器分析條件進行瞭優化。金的質量分數在0.1~100.0 ng/g範圍內與吸光度呈良好的線性,線性相關繫數r2=0.9993,檢齣限為0.100 ng/g。該方法對金標準物質測定結果的相對標準偏差為5.96%~9.25%(n=12),對國傢一級標準物質進行分析,測定結果與標準值相符閤。該方法滿足1∶50000化探樣品中痕量金的分析要求。
이왕수、불화갑、Fe3+용액위용제,대화탐양품진행수욕가열분해1.5 h,경포말소료흡부후,우90℃이상류뇨용액중해흡20 min,연후채용석묵로원자흡수광보의측정기중적금함량。대의기분석조건진행료우화。금적질량분수재0.1~100.0 ng/g범위내여흡광도정량호적선성,선성상관계수r2=0.9993,검출한위0.100 ng/g。해방법대금표준물질측정결과적상대표준편차위5.96%~9.25%(n=12),대국가일급표준물질진행분석,측정결과여표준치상부합。해방법만족1∶50000화탐양품중흔량금적분석요구。
Geochemical exploration sample was treated in the conditions as follows:aqua regia, potassium fluoride and Fe3+solution as the solvent, water bath heating decomposition 1.5 h and disengagement above 9 0℃ for 20 minutes. Then content of gold in sample was determined by graphite furnace atomic absorption method.Instrument parameters were optimized. The mass fraction of gold was linear with absorbance in the range of 0.1–100 ng/g with the correlation coefficient of r2=0.999 3,the detection limit of the method for gold was 0.100 ng/g. The relative standard deviation of detection results of gold reference material was 5.96%–9.25%(n=12). The method was used to detect standard substance and results were consistent with the standard value.The method can meet the requirements of detection of trace gold in 1∶50 000 geochemical sample.