Noémie Weber scite author profile

The subsurface transport of inorganic and organic contaminants may be strongly related to the movement of dissolved organic carbon (DOC) through a soil profile. A variety of soil chemical and hydrologic factors control the mobility of the DOC, which may enhance or impede the transport of the associated contaminants. In this study, the sources of DOC adsorption on two proposed waste‐site soils are defined, and the chemical mechanisms operative during the adsorption process are specified. Adsorption isotherms for the two soils determined at constant pH, ionic strength (I), and temperature indicated that DOC adsorption increased with increasing soil profile depth. Different adsorption capacities were exhibited by the two soils, however, which was related to their contrasting indigenous organic matter contents and mineralogies. The adsorption of DOC by the soils was not a function of solution I (I = 0.001 to 0.1 mol L−1 using NaCl); however, DOC adsorption was dependent on solution pH, with maximum adsorption occurring at ≃4.5. Competitive ion‐exchange studies using Na2SO4 as an ionic‐strength adjuster suggested that a portion of the DOC was electrostatically bound to the soil via anion exchange. By using thermodynamic principles, the predominant mechanism of DOC retention by the soil was found to be physical adsorption driven by favorable entropy changes. This is supported by preferential adsorption of the hydrophobic organic solutes to the soil relative to the hydrophilic organic solutes.

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Synthesis of a Copper [3]Rotaxane Able To Function as an Electrochemically Driven Oscillatory Machine in Solution, and To Form SAMs on a Metal Surface

Weber

Hamann

Kern

et al. 2003

Inorg. Chem.

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Two new copper [3]rotaxanes have been synthesized. The axes are identical for both compounds and incorporate two bidentate chelates joined together by a disulfide bridge. The rings contain either the single phen (phen = 1,10-phenanthroline) chelate or two different chelates (phen and terpy; terpy = 2,2',6',2' '-terpyridine, a tridentate chelate). The key intermediates for both synthetic routes are semi-rotaxanes obtained in high yields using the three-dimensional effect of copper(I). In the case where the wheels are heterobischelating macrocycles, large molecular motions, namely rotation or oscillation of the wheels around the axle, have been induced electrochemically. Anchoring of these two copper [3]rotaxanes on a gold electrode was carried out by standard procedures. Cleavage of the disulfide bridge and formation of monolayers of rotaxanes were evidenced by cyclic voltammetry. The adsorbed rotaxanes can be viewed as copper [2]rotaxanes for which the gold electrode surface acts as a stopper linked to one end of their axes.

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Noémie Weber

Mechanisms of Dissolved Organic Carbon Adsorption on Soil

Synthesis of a Copper [3]Rotaxane Able To Function as an Electrochemically Driven Oscillatory Machine in Solution, and To Form SAMs on a Metal Surface

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