摘要
试验了各种条件对Bi、Ga、Sb灵敏度影响。结果表明,分别用不同的火焰条件进行原子捕杀与放可获得最佳灵敏度。捕集1min,测得Bi、Ga、Sb的特征浓度依次为3.5×10-3、1.6×10-3、1.8×10-3μg·ml-1,它比常规火焰原子吸收光谱法的灵敏度分别提高254、131、239倍。Bi、Ga、Sb的变异系数各为2.9、3.5、4.7%。本法测定了纯锡中微量Bi、Sb。
The effects of various conditions on the sensitivities of Bi, Ga, Sb were investigated.The results show that the best sensitivity is obtained when different flame conditions are used for collection and release respectively. The characteristic concentration obtained after trapping for 1 min are: Bi 3. 5×10-3, Ga 1. 6× 10-2, Sb 1, 8× 10-3μg·mL-1. Thus slotted quartz tube atom -trapping AAS Yields increases in sensitivity for Bi, Ga, Sb of 254, 131, 239 fold respectively,in comparison to the conventional FAAS. The coefficients of variation are: Bi 2. 9, Ga 3. 5, Sb 4.7%. The Bi and Sb in pure tin have been determined.
出处
《分析科学学报》
CAS
CSCD
1994年第1期32-36,共5页
Journal of Analytical Science
基金
湖北省自然科学基金
关键词
铋
镓
锑
原子捕集
开缝石英管
bismuth
gallium
antimony
atom-trapping
atomic absorption spectrometry.
