DIFFERENTIAL DETERMINATION OF ARSENIC(III) AND TOTAL ARSENIC USING FLOW-INJECTION ONLINE SEPARATION AND PRECONCENTRATION FOR GRAPHITE-FURNACE ATOMIC-ABSORPTION SPECTROMETRY

被引：96

作者：

SPERLING, M ^{[1
]}

YIN, XF ^{[1
]}

WELZ, B ^{[1
]}

机构：

[1] BODENSEEWERK PERKIN ELMER & CO GMBH,DEPT APPL RES,W-7770 UBERLINGEN,GERMANY

来源：

SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY | 1991年 / 46卷 / 14期

关键词：

D O I：

10.1016/0584-8547(91)80206-I

中图分类号：

O433 [光谱学];

学科分类号：

0703 ; 070302 ;

摘要：

Arsenic(III) can be quantitatively extracted using sodium diethyldithiocarbamate (NaDDTC) as the complexing agent and C18 reversed phase packing as the column material for solid phase extraction. Arsenic(V) must be reduced to its trivalent oxidation state prior to extraction. A mixture of sodium sulphite, hydrochloric acid, sodium thiosulphate and potassium iodide was found to be optimum for on-line reduction. When the sorbent extraction is carried out without and with the addition of the reduction mixture, arsenic(III) and total arsenic can be determined sequentially by graphite furnace atomic absorption spectrometry with detection limits (3-sigma) of 0.32 ng for As(III) and 0.43 ng for total arsenic. A 7.6-fold enhancement in peak area compared to direct injection of 40-mu-l samples was obtained after 60 s preconcentration. Results obtained for sea water standard reference materials, using aqueous standards for calibration, agree well with certified values. A precision of 5.5% RSD was obtained for total arsenic in a sea water sample (1.65-mu-g/l As). Results obtained for synthetic mixtures of trivalent and pentavalent arsenic agreed well with expected values.

引用

页码：1789 / 1801

页数：13

共 61 条

[1] OBSERVATIONS ON THE INTERFERENCE BY COPPER(II), COBALT(II) AND NICKEL(II) ON THE DETERMINATION OF ARSENIC BY ARSINE GENERATION ATOMIC-ABSORPTION SPECTROMETRY [J].

AGGETT, J ;

HAYASHI, Y .

ANALYST, 1987, 112 (03) :277-282

[2] ANION-EXCHANGE METHOD FOR SPECIATION OF ARSENIC AND ITS APPLICATION TO SOME ENVIRONMENTAL-ANALYSES [J].

AGGETT, J ;

KADWANI, R .

ANALYST, 1983, 108 (1293) :1495-1499

[3] DETERMINATION OF ARSENIC(III) AND TOTAL ARSENIC BY ATOMIC-ABSORPTION SPECTROSCOPY [J].

AGGETT, J ;

ASPELL, AC .

ANALYST, 1976, 101 (1202) :341-347

[4] SELECTIVE REDUCTION OF ARSENIC SPECIES BY CONTINUOUS HYDRIDE GENERATION .1. REACTION MEDIA [J].

ANDERSON, RK ;

THOMPSON, M ;

CULBARD, E .

ANALYST, 1986, 111 (10) :1143-1152

[5] SELECTIVE REDUCTION OF ARSENIC SPECIES BY CONTINUOUS HYDRIDE GENERATION .2. VALIDATION OF METHODS FOR APPLICATION TO NATURAL-WATERS [J].

ANDERSON, RK ;

THOMPSON, M ;

CULBARD, E .

ANALYST, 1986, 111 (10) :1153-1158

[6] DETERMINATION OF ARSENIC SPECIES IN NATURAL-WATERS [J].

ANDREAE, MO .

ANALYTICAL CHEMISTRY, 1977, 49 (06) :820-823

[7] AUTOMATED PROCEDURE FOR THE DETERMINATION OF SOLUBLE ARSENIC USING HYDRIDE GENERATION ATOMIC-ABSORPTION SPECTROSCOPY [J].

ARBABZAVAR, MH ;

HOWARD, AG .

ANALYST, 1980, 105 (1253) :744-750

[8]

BODE H, 1954, Z ANAL CHEM, V142, P414

[9] TRACE DETERMINATION OF AS(III) AND AS(V) IN NATURAL-WATERS BY DIFFERENTIAL PULSE ANODIC-STRIPPING VOLTAMMETRY [J].

BODEWIG, FG ;

VALENTA, P ;

NURNBERG, HW .

FRESENIUS ZEITSCHRIFT FUR ANALYTISCHE CHEMIE, 1982, 311 (03) :187-191

[10] SEPARATION AND DETERMINATION OF NANOGRAM AMOUNTS OF INORGANIC ARSENIC AND METHYLARSENIC COMPOUNDS [J].

BRAMAN, RS ;

JOHNSON, DL ;

FOREBACK, CC ;

AMMONS, JM ;

BRICKER, JL .

ANALYTICAL CHEMISTRY, 1977, 49 (04) :621-625

← 1 2 3 4 5 6 7 →