A method for the analysis of trace germanium in marine sediments by HG-AFS has been investigated. The experimental conditions such as the acidity of reduction reaction, the amount of sodium boro-hydride, the carrier g...A method for the analysis of trace germanium in marine sediments by HG-AFS has been investigated. The experimental conditions such as the acidity of reduction reaction, the amount of sodium boro-hydride, the carrier gas flow rate, etc., were tested and optimized by using a kind of orthogonal design. The detection limit of the presented method is 0.95 μg L -1 for germanium. The calibration curve shows a satisfactory line in the concentration range 0-320 μg L -1 Ge with a variation coefficient of ±2.1%.展开更多
A method for the analysis of selenium in marine aquatic products by HG-AFS has been investigated. The methodis based on the reduction of inorganic selenium to volatile SeH2 which is bubbled out by carrier gas of pure ...A method for the analysis of selenium in marine aquatic products by HG-AFS has been investigated. The methodis based on the reduction of inorganic selenium to volatile SeH2 which is bubbled out by carrier gas of pure argon, and thenswept to Ar-H2 flame quarts atomizer to measure its fluorescence intensity. The hydride generation, transportation, atom-ization and some instrumental parameters were studied by a kind of orthogonal design. The optimum conditions selected areas follows: reactive acidity, 20% HCl; the amount of NaBH4, 4.9mL; gas flow of argon, 600mLmin-1; atomizing tempera-ture, 200 °C; negative high voltage, -300V; light current, 100 mA; integral time, 7s. The detection limit of the presentedmethod is 0.072 μg L-1 for selenium. The calibration curve shows a satisfactory line in the concentration range from 0.000 to1.000 μg L-1 Se. The recovery is 95.8%-102.2% .展开更多
A method was developed for the determination of total arsenic concentration in less than ng/ml level by decomposition of organoarsenicals using photo -oxidation combined with in situ trapping of arsenic hydride on a p...A method was developed for the determination of total arsenic concentration in less than ng/ml level by decomposition of organoarsenicals using photo -oxidation combined with in situ trapping of arsenic hydride on a palladium coated graphite tube with subsequent atomization and detection by AAS. The organoarsenicals include monomethylarsenic, dimethylarsenic, arsenobetaine, arsenocholine, o -aminobenzenarsenate and p -aminobenzenarsenate. The method is simple and sensitive. Detection limit was obtained from different arsenic compounds over the range from 0. 058 to 0.063 ng/ml as As (based on three times of the standard deviation of 10 blank measurements) and the relative standard deviations for ten replicate measurements were from 2.0 to 3.8%. The calibration curves of arsenic compounds including inorganic and organic arsenicals were linear over the range from 0.1 to 3.0 ng/ml as As. The recommended method has been applied to the determination of total arsenic in tap and lake water samples at ng/ml levels.展开更多
On-line ion-exchange separation and preconcentration were combined with flow-injection hydride generation atomic absorption spectrometry (HGAAS) to determine ultra-trace amounts of antimony in water samples. Antimony(...On-line ion-exchange separation and preconcentration were combined with flow-injection hydride generation atomic absorption spectrometry (HGAAS) to determine ultra-trace amounts of antimony in water samples. Antimony(Ⅲ) was preconcentrated on a micro-column packed with CPG-8Q chelating ion-exchanger using time-based sample loading and eluted by 4 mol l^(-1) HCl directly into the hydride generation AAS system. A detection limit (3σ) of 0.0015μg l^(-1) Sb(Ⅲ) was obtained on the basis of a 20 fold enrichment and with a sampling frequency of 60h^(-1). The precision was 1.0% r.s.d.(n=11) at the 0.5μg l^(-1) Sb(Ⅲ) level. Recoveries for the analysis of antimony in tap water, snow water and sea water samples were in the range 97-102%.展开更多
A new direct procedure for the determination of inorganic arsenic species was developed by electrochemical hydride generation atomic absorption spectrometry (EcHG-AAS) with selective electrochemical reduction. The d...A new direct procedure for the determination of inorganic arsenic species was developed by electrochemical hydride generation atomic absorption spectrometry (EcHG-AAS) with selective electrochemical reduction. The determination of inorganic arsenic species is based on the fact that As(Ⅲ) shows significantly higher absorbance at low electrolytic currents than As(Ⅴ) in 0.3 mol·L^-1 H2SO4. The electrolytic current used for the determination of As(Ⅲ) without considerable interferences of As(Ⅴ) was 0.4 A, whereas the current for the determination of As(Ⅲ) and As(Ⅴ) was 1.2 A. For equal concentrations of As(Ⅲ) and As(Ⅴ) in a sample, the interferences of As(Ⅴ) during the As(Ⅲ) determination were smaller than 5%. The absorbance for As(Ⅴ) could be calculated by subtracting that for As(Ⅲ) measured at 0.4 A from the total absorbance for As(Ⅲ) and As(Ⅴ) measured at 1.2 A, and then the concentration of As(Ⅴ) can be obtained by its calibration curve at 1.2 A. The methodology developed provided the detection limits of 0.3 and 0.6 ng·mL^-1 for As(Ⅲ) and As(Ⅴ), respectively. The relative standard deviations were of 3.5% for 20 ng·mL^-1 As(Ⅲ) and 3.2% for 20 ng·mL^-1 As(Ⅴ). The method was successfully applied to determination of soluble inorganic arsenic species in Chinese medicine.展开更多
基金supported by the Key Science and Technology pnasp Minsty of Educaton umder contr act(N0.200010-0079).
文摘A method for the analysis of trace germanium in marine sediments by HG-AFS has been investigated. The experimental conditions such as the acidity of reduction reaction, the amount of sodium boro-hydride, the carrier gas flow rate, etc., were tested and optimized by using a kind of orthogonal design. The detection limit of the presented method is 0.95 μg L -1 for germanium. The calibration curve shows a satisfactory line in the concentration range 0-320 μg L -1 Ge with a variation coefficient of ±2.1%.
文摘A method for the analysis of selenium in marine aquatic products by HG-AFS has been investigated. The methodis based on the reduction of inorganic selenium to volatile SeH2 which is bubbled out by carrier gas of pure argon, and thenswept to Ar-H2 flame quarts atomizer to measure its fluorescence intensity. The hydride generation, transportation, atom-ization and some instrumental parameters were studied by a kind of orthogonal design. The optimum conditions selected areas follows: reactive acidity, 20% HCl; the amount of NaBH4, 4.9mL; gas flow of argon, 600mLmin-1; atomizing tempera-ture, 200 °C; negative high voltage, -300V; light current, 100 mA; integral time, 7s. The detection limit of the presentedmethod is 0.072 μg L-1 for selenium. The calibration curve shows a satisfactory line in the concentration range from 0.000 to1.000 μg L-1 Se. The recovery is 95.8%-102.2% .
文摘A method was developed for the determination of total arsenic concentration in less than ng/ml level by decomposition of organoarsenicals using photo -oxidation combined with in situ trapping of arsenic hydride on a palladium coated graphite tube with subsequent atomization and detection by AAS. The organoarsenicals include monomethylarsenic, dimethylarsenic, arsenobetaine, arsenocholine, o -aminobenzenarsenate and p -aminobenzenarsenate. The method is simple and sensitive. Detection limit was obtained from different arsenic compounds over the range from 0. 058 to 0.063 ng/ml as As (based on three times of the standard deviation of 10 blank measurements) and the relative standard deviations for ten replicate measurements were from 2.0 to 3.8%. The calibration curves of arsenic compounds including inorganic and organic arsenicals were linear over the range from 0.1 to 3.0 ng/ml as As. The recommended method has been applied to the determination of total arsenic in tap and lake water samples at ng/ml levels.
文摘On-line ion-exchange separation and preconcentration were combined with flow-injection hydride generation atomic absorption spectrometry (HGAAS) to determine ultra-trace amounts of antimony in water samples. Antimony(Ⅲ) was preconcentrated on a micro-column packed with CPG-8Q chelating ion-exchanger using time-based sample loading and eluted by 4 mol l^(-1) HCl directly into the hydride generation AAS system. A detection limit (3σ) of 0.0015μg l^(-1) Sb(Ⅲ) was obtained on the basis of a 20 fold enrichment and with a sampling frequency of 60h^(-1). The precision was 1.0% r.s.d.(n=11) at the 0.5μg l^(-1) Sb(Ⅲ) level. Recoveries for the analysis of antimony in tap water, snow water and sea water samples were in the range 97-102%.
基金Project supported by the National Natural Science Foundation of China (No. 20173004).
文摘A new direct procedure for the determination of inorganic arsenic species was developed by electrochemical hydride generation atomic absorption spectrometry (EcHG-AAS) with selective electrochemical reduction. The determination of inorganic arsenic species is based on the fact that As(Ⅲ) shows significantly higher absorbance at low electrolytic currents than As(Ⅴ) in 0.3 mol·L^-1 H2SO4. The electrolytic current used for the determination of As(Ⅲ) without considerable interferences of As(Ⅴ) was 0.4 A, whereas the current for the determination of As(Ⅲ) and As(Ⅴ) was 1.2 A. For equal concentrations of As(Ⅲ) and As(Ⅴ) in a sample, the interferences of As(Ⅴ) during the As(Ⅲ) determination were smaller than 5%. The absorbance for As(Ⅴ) could be calculated by subtracting that for As(Ⅲ) measured at 0.4 A from the total absorbance for As(Ⅲ) and As(Ⅴ) measured at 1.2 A, and then the concentration of As(Ⅴ) can be obtained by its calibration curve at 1.2 A. The methodology developed provided the detection limits of 0.3 and 0.6 ng·mL^-1 for As(Ⅲ) and As(Ⅴ), respectively. The relative standard deviations were of 3.5% for 20 ng·mL^-1 As(Ⅲ) and 3.2% for 20 ng·mL^-1 As(Ⅴ). The method was successfully applied to determination of soluble inorganic arsenic species in Chinese medicine.