光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2010年
4期
1123-1125
,共3页
刘春涛%侯海鸽%范乃英%李寒辉
劉春濤%侯海鴿%範迺英%李寒輝
류춘도%후해합%범내영%리한휘
原子荧光法%刺五加%砷%锑%汞%硒
原子熒光法%刺五加%砷%銻%汞%硒
원자형광법%자오가%신%제%홍%서
Atomic fluorescence spectrometry%Acanthopanax Senticosus Harms%Arsenic%Antimony%Mercury%Selenium
采用微波消解处理样品,建立了氢化物发生-原子荧光法测定刺五加不同部位中的As,sb,Hg,Se的分析方法.在最佳工作条件下,Se,Sb,Hg,Se的浓度与荧光强度均呈现良好的线性关系.砷的检出限为0.068 ng·mL~(-1),RSD为1.05%;锑的检出限为0.155 ng·mL~(-1),RSD为1.32%;汞的检出限为0.014 ng·mL~(-1),RSD为2.03%;硒的检出限为0.052 ng·mL~(-1),RSD为2.34%.并选用标准物质人发(GBW07601)对测定方法的准确度进行考察,该方法灵敏、快速准确.实验结果表明,刺五加不同部位中As,Sb,Hg,Se的含量有所差异.As,Hg和Se主要在叶中含量较高,锑在根中的含量高于其他部位.
採用微波消解處理樣品,建立瞭氫化物髮生-原子熒光法測定刺五加不同部位中的As,sb,Hg,Se的分析方法.在最佳工作條件下,Se,Sb,Hg,Se的濃度與熒光彊度均呈現良好的線性關繫.砷的檢齣限為0.068 ng·mL~(-1),RSD為1.05%;銻的檢齣限為0.155 ng·mL~(-1),RSD為1.32%;汞的檢齣限為0.014 ng·mL~(-1),RSD為2.03%;硒的檢齣限為0.052 ng·mL~(-1),RSD為2.34%.併選用標準物質人髮(GBW07601)對測定方法的準確度進行攷察,該方法靈敏、快速準確.實驗結果錶明,刺五加不同部位中As,Sb,Hg,Se的含量有所差異.As,Hg和Se主要在葉中含量較高,銻在根中的含量高于其他部位.
채용미파소해처리양품,건립료경화물발생-원자형광법측정자오가불동부위중적As,sb,Hg,Se적분석방법.재최가공작조건하,Se,Sb,Hg,Se적농도여형광강도균정현량호적선성관계.신적검출한위0.068 ng·mL~(-1),RSD위1.05%;제적검출한위0.155 ng·mL~(-1),RSD위1.32%;홍적검출한위0.014 ng·mL~(-1),RSD위2.03%;서적검출한위0.052 ng·mL~(-1),RSD위2.34%.병선용표준물질인발(GBW07601)대측정방법적준학도진행고찰,해방법령민、쾌속준학.실험결과표명,자오가불동부위중As,Sb,Hg,Se적함량유소차이.As,Hg화Se주요재협중함량교고,제재근중적함량고우기타부위.
A method for the determination of arsenic, antimony, mercury and selenium in different parts (root, stem, leaf and fruit) of aeanthopanax senticosus harms using hydride generation atomic fluorescence spectrometry with microwave digestion was developed. Under the optimized experimental conditions, the concentration of arsenic, antimony, mercury and selenium showed a linear relationship with the fluorescence intensity. The detection limit of arsenic was 0. 068 ng·mL~(-1), and the RSD was 1.05%. The detection limit of antimony was 0. 155 ng·m.L~(-1), and the RSD was 1.32%. The detection limit of mercury was 0. 014 ng·mL~(-1), and the RSD was 2.03%. The detection limit of selenium was 0. 052 ng·mL~(-1), and the RSD was 2.34%.The method was checked in terms of accuracy and precision using the standard reference substance of hair(GBW07601), and proved to be sensitive and rapid with satisfactory results. The content of arsenic, mercury and selenium is high in the leaf, and that of antimony is higher in the root than in other parts.