PHOSPHATE COMPLEXATION AT THE SURFACE OF GOETHITE

被引：44

作者：

NILSSON, N

LOVGREN, L

SJOBERG, S

机构：

[1] Department of Inorganic Chemistry, University of Umeå, Umeå

来源：

CHEMICAL SPECIATION AND BIOAVAILABILITY | 1992年 / 4卷 / 04期

关键词：

EQUILIBRIUM MODEL; GOETHITE SUSPENSION; PHOSPHATE; POTENTIOMETRIC TITRATIONS; SURFACE COMPLEXATION;

D O I：

10.1080/09542299.1992.11083190

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Phosphate complexation at the goethite-water interface has been studied in 0.1 M Na(NO3) medium at 298.2 K in the range 3.0 < -log[H+] < 9.0. Equilibrium measurements were performed as potentiometric titrations supplemented with spectrophotometric phosphate analyses. The experimental data were evaluated on the basis of the constant capacitance model and with the aid of the computer program FITEQL, version 2.0. The acid/base properties of the goethite-water interface have been investigated earlier and are described by two intrinsic equilibrium constants logbeta(S)1,1,0(int) = 7.47 and logbeta(S)-1,1,0(int) = -9.51 and with a specific capacitance of 1.28 F m-2. The binding between phosphate and goethite was found to be strong within the investigated -log[H+] range, and the amount of adsorbed phosphate is slowly decreasing with increasing -log[H+] value. The model describing the phosphate complexation is represented by the following equilibria and intrinsic constants: = FeOH + H2PO4- reversible = FePO42- + H+ + H2O ; log beta-1,1,1(int)S = 2.16 +/- 0.10 = FeOH + H2PO4- reversible = FePO4H- + H2O ; log beta0,1,1(int)S = 7.93 +/- 0.09 = FeOH + H2PO4- + H+ reversible = FePO4H2 + H2O ; log beta1,1,1(int)S = 12.68 +/- 0.05. Further support for the proposed model is given by zeta-potential measurements.

引用

页码：121 / 130

页数：10

共 35 条

[1]

[Anonymous], 1990, SURFACE COMPLEXATION

[2] KINETICS OF ISOTOPIC-EXCHANGE OF PHOSPHATE AT ALPHA-FEOOH-AQUEOUS SOLUTION INTERFACE [J].

ATKINSON, RJ ;

QUIRK, JP ;

POSNER, AM .

JOURNAL OF INORGANIC & NUCLEAR CHEMISTRY, 1972, 34 (07) :2201-&

[3] ADSORPTION OF POTENTIAL-DETERMINING IONS AT FERRIC OXIDE-AQUEOUS ELECTROLYTE INTERFACE [J].

ATKINSON, RJ ;

POSNER, AM ;

QUIRK, JP .

JOURNAL OF PHYSICAL CHEMISTRY, 1967, 71 (03) :550-&

[4] INFRARED STUDY OF PHOSPHATE ADSORPTION ON GOETHITE [J].

ATKINSON, RJ ;

PARFITT, RL ;

SMART, RS .

JOURNAL OF THE CHEMICAL SOCIETY-FARADAY TRANSACTIONS I, 1974, 70 (08) :1472-1479

[5]

Baes C.F., 1976, HYDROLYSIS CATIONS

[6] THE INFLUENCE OF THE MAJOR IONS OF SEAWATER ON THE ADSORPTION OF SIMPLE ORGANIC-ACIDS BY GOETHITE [J].

BALISTRIERI, LS ;

MURRAY, JW .

GEOCHIMICA ET COSMOCHIMICA ACTA, 1987, 51 (05) :1151-1160

[7] DESCRIBING THE ADSORPTION OF PHOSPHATE, CITRATE AND SELENITE ON A VARIABLE-CHARGE MINERAL SURFACE [J].

BOWDEN, JW ;

NAGARAJAH, S ;

BARROW, NJ ;

POSNER, AM ;

QUIRK, JP .

AUSTRALIAN JOURNAL OF SOIL RESEARCH, 1980, 18 (01) :49-60

[8] A type of silver chloride electrode suitable for use in dilute solutions [J].

Brown, AS .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1934, 56 :646-647

[9] Adsorption of gases in multimolecular layers [J].

Brunauer, S ;

Emmett, PH ;

Teller, E .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1938, 60 :309-319

[10]

Eriksson G., 1979, Analytica Chimica Acta, Computer Techniques and Optimization, V112, P375, DOI 10.1016/S0003-2670(01)85035-2

← 1 2 3 4 →