Chromium! VI , reduction

Kim C., Q. Zhou, B. Deng, E. C. Thornton and H. Xu, 2001, Chromium(VI) reduction by hydrogen sulfide in aqueous media stoichiometry and kinetics. Environmental Science and Technology 35, 2219-2225. [Pg.521]

Deng B, Stone A (1996) Surface-catalyzed chromium(VI) reduction reactivity comparisons of different... [Pg.314]

S.A. (1980) Infrared study of the adsorption of carboxylic acids on hematite and goethite immersed in carbon tetrachloride. J. Chem. Soc. Faraday Trans. I. 76 302-313 Buerge, I.J. Hug, S.J. (1999) Influence of mineral surfaces on chromium(VI) reduction by iron(II). Environ. Sci. Techn. 33 4285-4291 Buerge-Weirich, D. Hard, R. Xue, H. Behra, P. Sigg, L. (2002) Adsorption of Cu, Cd and Ni on goethite in the presence of natural groundwater ligands. Environ. Sci. Techn. 36 328-336... [Pg.565]

Chromium VI reduction and heavy-metal precipitation in one reaction,... [Pg.824]

A study examining the chromium(VI) reduction in microsomes noted that the level of iron in the test system markedly influenced the Vmax of chromium(VI) reduction, suggesting that coexposure to chromium(VI) and agents that increase intracellular iron might lead to increased risk for chromium(VI) toxicity (Myers and Myers 1998). [Pg.270]

Liu KJ, Jiang J, Swartz HM, et al. 1994. Low-frequency EPR detection of chromium(V) formation by chromium(VI) reduction in whole live mice. Arch Biochem Biophys 313(2) 248-252. [Pg.439]

Mikalsen A, Capellmann M, Alexander J. 1995. The role of iron chelators and oxygen in the reduced nicotinamide adenine dinucleotide phosphate-cytochrome P450 oxidoreductase-dependent chromium(VI) reduction. Analyst 120 935-938. [Pg.444]

Baolin, D., and A.T. Stone. 1996. Surface-catalyzed chromium(VI) reduction The Ti02 -Cr(VI)-man-delic acid system. Environ. Sci. Technol. 30 463-467. [Pg.251]

Fendorf S, Wielinga BW, Hansel CM (2000) Chromium transformations in natural environments The role of biological and abiological processes in chromium(VI) reduction. Int Geol Rev 42 691-701 Fenter P, Cheng L, Rihs S, Machesky M, Bedzyk MJ, Sturchio NC (2000c) Electrical double-layer structure at the mtile-water interface as observed in situ with small-period X-ray standing waves. J Colloid Interface Sci 225 154-165... [Pg.81]

Batchelor B, Schlautman M, Hwang I, Wang R. (1998). Kinetics of Chromium (VI) Reduction by Perrons Iron. AmariUo National Resource Centre for Plntoninm. Report ANRCP-1998-13. [Pg.192]

Konovalova, V. V., Dmytrenko, G. M., NigmatulUn, R. R., Bryk, M. T. and Gvozdyak, P. I. 2003. Chromium(VI) reduction in a membrane bioreactor with immobilized Pseudomonas cells. Enzyme and Microbial Technology, 33,899-907. [Pg.801]

Tandukar, M., Huber, S.J., Onodera, T. Pavlostathis, S.G. Biological chromium(VI) reduction in the cathode of a microbial fuel-cell. Environ. Sci. Technol. 43 (2009), pp. 8159-8165. [Pg.242]

Pattison DI, Davies MJ, Levina A, Dixon NE, Lay PA. 2001. Chromium(VI) reduction by catechol(amine)s results in DNA cleavage in vitro relevance to chromium genotoxicity. Chem Res Toxico/14(5) 500-510. [Pg.575]

Fendorf, S., B.W. Wielinga, and C.M. Hansel. 2000. Chromium transformations in natural environments The role of biological and abiological processes in chromium(VI) reduction. Int. Geol. Rev. [Pg.126]

Lay, P.A., and A. Levina. 1996. Kinetics and mechanism of chromium(VI) reduction to chromium(III) by L-cysteine in neutral aqueous solutions. Inorg. Chem. 35 7709-7715. [Pg.127]

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