Flow injection hydride atomic absorption spectrometry

V. E. Negretti de Bratter, P. Bratter, A. Tomiak, An automated microtechnique for selenium determination in human body fluids by flow injection hydride atomic absorption spectrometry (FI-HAAS), J. Trace Elem. Electrolytes Health Dis., 4 (1990), 41-48. [Pg.432]

AiEGEEfA A, Baebeea R, Faeee R, Feeeee E, LagaedaMJ and Torres MA (1998) Optimization of selenium determination in human milk and whole blood hy flow injection hydride atomic absorption spectrometry. AOAC Int 81 457-461. [Pg.1393]

FLOW INJECTION ELECTROCHEMICAL HYDRIDE GENERATION ATOMIC ABSORPTION SPECTROMETRY EOR THE DETERMINATION OE ARSENIC... [Pg.135]

Lab method using continuous flow or flow injection analysis hydride generation and atomic absorption spectrometry... [Pg.360]

Samanta G, Chakraborti D. 1996. Flow injection hydride generation atomic absorption spectrometry (FI-HG-AAS) and spectrophotometric methods for determination of lead in environmental samples. Environmental Technology 17(12) 1327-1337. [Pg.571]

B. Hilligsoe and E. H. Hansen, Application of factorial designs and simplex optimisation in the development of flow injection-hydride generation-graphite furnace atomic absorption spectrometry (FI-HG-GFAAS) procedures as demonstrated for the determination of trace levels of germanium, Fresenius J. Anal. Chem., 358(7-8), 1997, 775-780. [Pg.157]

Samanta, G Chowdhury, T.R., Mandal, B.K. et al. (1999) Flow injection hydride generation atomic absorption spectrometry for determination of arsenic in water and biological samples from arsenic-affected districts of West Bengal, India, and Bangladesh. Microchemical Journal, 62(1), 174-91. [Pg.226]

Jiminez de Bias et al. [32] have reported a method for the determination of total arsenic in soils based on hydride generation atomic absorption spectrometry and flow injection analysis. The method gave good recoveries and had a detection limit below 1 ig/l for an injection volume of 160 pi... [Pg.31]

Cobo-Fernandez, M.G., Palacios, M.A. and Camara, C. (1993) Flow-injection and continuous-flow systems for the determination of Se (VI) and Se (IV) by hydride generation atomic absorption spectrometry with on-line prereduction of Se (IV) to Se (VI). Anal. Chim. Acta, 283, 386-392. [Pg.433]

Cabon, J.Y. and N. Cabon. 2000. Determination of arsenic species in seawater by flow injection hydride generation in situ collection followed by graphite furnace atomic absorption spectrometry. Stability of As(III). Anal. Chim. Acta 418 19-31. [Pg.101]

Pitts, L., PI. Worsfold, and J. Hill. 1994. Selenium speciation—a flow injection approach employing online microwave reduction followed by hydride generation-quartz furnace atomic absorption spectrometry. Analyst 119 2785-2788. [Pg.102]

Boron, Li, Mo, Pb, and Sb were determined in the standard mode, while Al, Cd, Co, Ni, Mn, Rb, Sb, Sn, and V were determined in the DRC mode. The determination of Ni was done with a gas flow of 0.15 ml min-1 of CH4, while for the other elements NH3 was used as cell gas at 0.4 ml min-1. The determination of Se by flow injection hydride generation atomic absorption spectrometry (FI-HG-AAS) was carried out by means of the Perkin-Elmer FLAS 200 system, equipped with the Perkin-Elmer autosampler AS-90, and connected to an electrically heated quartz cell installed on a PerkinElmer absorption spectrometer AAS 4100. The analytical conditions are given in Table 10.3. [Pg.337]

J. L. Burguera, P. Carrero, M. Burguera, C. Rondon, M. R. Brunette, P. Gallignani, Flow injection for the determination of Se(IV) and Se(VI) by hydride generation atomic absorption spectrometry with microwave oven on-line pre-reduction of Se(VI) to Se(IV), Spectrochim. Acta, 51B (1996), 1837-1847. [Pg.494]

C. Cabrera, Y. Madrid, C. Camara, Determination of lead in wine, other beverages and fruit slurries by flow injection hydride generation atomic absorption spectrometry with on-line microwave digestion, J. Anal. Atom. Spectrom., 9 (1994), 1423-1426. [Pg.495]

Ringmann, S., Boch, K., Marquardt, W., Schuster, M., Schlemmer, G., Kainrath, P. Microwave-assisted digestion of organoarsenic compounds for the determination of total arsenic in aqueous, biological, and sediment samples using flow injection hydride generation electrothermal atomic absorption spectrometry. Anal. Chim. Acta 452, 207-215 (2002)... [Pg.231]

Petit de Pena, Y., Vielma, O., Burguera, J.L., Burguera, M., Rondon, C., Carrero, P. On line determination of antimony (III) and antimony (V) in liver tissue and whole blood by flow injection - hydride generation - atomic absorption spectrometry. Talanta 55,743-754 (2001)... [Pg.231]

Liu Y., Wang X., Yuan D., Yang P., Huang B. and Zhuang Z. (1992) Flow-injection-electrochemical hydride generation technique for atomic absorption spectrometry, J Anal At Spectrom 7 287-291. [Pg.333]

Chan CC, Sadana RS. 1992. Determination of arsenic and selenium in environmental samples by flow-injection hydride generation atomic absorption spectrometry. Anal Chim Acta 270(l) 231-238. [Pg.325]

McLaughlin K, Dadgar D, Smyth MR, et al. 1990. Determination of selenium in blood plasma and serum by flow injection hydride generation atomic absorption spectrometry. Analyst 115(3) 275-278. [Pg.367]

A. Correia, M. Galesio, H. Santos, R. Rial-Otero, C. Lodeiro, A. Oehmen, A.C.L. Conceicao, J.L. Capelo, Can sample treatments based on advanced oxidation processes assisted by high-intensity focused ultrasound be used for toxic arsenic determination in human urine by flow-injection hydride-generation atomic absorption spectrometry Talanta 72 (2007) 968. [Pg.426]

Chen SY, Zhang ZF and Yu HM (2002) Determination of trace bismuth by flow injection-hydride generation collection-atomic absorption spectrometry. Anal Bioanalyt Chem 374(1) 126-130. [Pg.684]

De Bias OJ and Mateos NR (1996) Determination of total arsenic and selenium in plants by atomic absorption spectrometry with hydride generation and flow injection analysis coupled techniques. JAOAC Int 79 764-768. [Pg.1395]

O. Astrom, Flow Injection Analysis for the Determination of Bismuth by Atomic Absorption Spectrometry with Hydride Generation. Anal. Chem., 54 (1982) 90. [Pg.397]

M. Yamamoto, M. Yasuda, and Y. Yamamoto, Hydride-Generation Atomic Absorption Spectrometry Coupled with Flow Injection Analysis. Anal. Chem., 57 (1985) 1382. [Pg.437]

G. E. Pacey, M. R. Straka, and J. R. Gord, Dual Phase Gas Diffusion Flow Injection Analysis/Hydride Generation Atomic Absorption Spectrometry. Anal. Ghent., 58 (1986) 502. [Pg.450]

X. Wang and Z. Fang, Determination of Trace Amounts of Selenium in Environmental Samples by Hydride Generation Atomic Absorption Spectrometry Combined with Flow Injection Analysis [in Chinese]. Kexue Tong-bao, 30 (1985) 1598. [Pg.461]

M. H. Arbab-Zavar, M. Chamsaz, A. Youssefi and M. Aliakbari, Multivariate optimisation on flow-injection electrochemical hydride generation atomic absorption spectrometry of cadmium, Talanta, 2012, 97, 229-234. [Pg.265]

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