Katja Emmerich scite author profile

The term 'montmorillonite' encompasses a wide range of chemical compositions and structures. Comprehensive and reliable characterization is essential for unambiguous classification. Twenty eight purified, Na-exchanged smectites (<0.2 mm) were characterized by layer-charge measurement using the alkylammonium method, by cation exchange capacity (CEC) measurement with Cu-triethylenetetramine, by determination of the chemical composition using X-ray fluorescence analysis, by calculation of the structural formula following determination of the octahedral structure (trans-vacant vs. cis-vacant) by simultaneous thermal analysis, and by X-ray diffraction analysis. Mö ssbauer spectroscopy was applied to determine the oxidation state and coordination of Fe and changes thereof during purification of the source materials.The charge derived from chemical composition was considerably greater (by up to 30%) than the measured layer charge. The independently measured layer charge was used to calculate the structural formula. The measured CEC values, comprising the permanent charges and the pH-dependent edge charges, were consistent with measured layer charge but not with layer charge derived from the chemical composition. Therefore, the structural formula of smectites should be calculated using the measured layer charge.The dehydroxylation temperature, which conveys information about the structure of the octahedral sheet, was correlated to the amount of Mg and Fe 3+ and the location of charges. No relationship was found among the dehydroxylation temperature and the mean layer charge or the Mg content. In contrast, a clear relationship was observed between the Fe content and the dehydroxylation temperature. Montmorillonites with an Fe content <0.3/f.u. are cis-vacant and those containing Fe 3+ > 0.3 mol/f.u. are trans-vacant, mostly with additional cis-vacancies. Tetrahedral substitution also appeared to be a function of the number of trans-vacancies.The parameters analyzed provide the basis for a new descriptive classification system.

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Spontaneous Rehydroxylation of a Dehydroxylated Cis-Vacant Montmorillonite

Emmerich

2000

Clays and clay miner.

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Dehydroxylation Behavior of Heat-Treated and Steam-Treated Homoionic cis-Vacant Montmorillonites

Emmerich

Madsen

Kahr

1999

Clays and clay miner.

109

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Li +, Na +, Ca 2 § Sr 2+, CH 2+, or Zn2+-saturated samples of a cis-vacant montmorillonite from Linden, Bavaria, were heated to temperatures between 200-700~Half of each heated sample was subsequently autoclaved under steam at 200~ (--1.5 MPa) to promote rehydroxylation. The smectites were characterized by cation-exchange capacity (CEC), determination of exchangeable cations, infrared (IR) spectroscopy, and thermoanalytical investigations of evolved water in a thermobalance linked with a mass spectrometer.Changes in the montmorillonite structure and dehydroxylation behavior are related to three respective mechanisms: type of the interlayer cation, interlayer cation radius, and the movement of the interlayer cation. The migration of the smaller Li +, Cn 2+, and Zn 2+ ions after heating produces a strong reduction of CEC due to the Hofmann-Klemen effect before the initiation of dehydroxylation. Thereafter, the CEC of these smectites remains constant over a large temperature interval during dehydroxylation. After rehydroxylation, Cu 2+ and Zn2+-rich samples release 16-23 meq/100 g ofMg 2+ from the structure. No Mg z+ release is observed for the Li+-rich montmorillonite. Also the dehydroxylation behavior after rehydroxylation differs between the Cu 2+, Zn 2+, and Li+-rich samples. The mass curves of the evolved water during thermoanalysis of the rehydroxylated Cu 2+ and Zn2+-rich smectites show a peak doublet between 480-700~ For the Li +, Na +, Ca 2+, and Sr2+-rich montmorillonites, the second peak disappeared and a third peak at -760~ developed after rehydroxylation. The resulting structure after rehydroxylation of all samples is celadonite-like.

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Katja Emmerich

Experimental Investigations on the Frequency- and Temperature-Dependent Dielectric Material Properties of Soil

Alteration of swelling clay minerals by acid activation

A comprehensive characterization of dioctahedral smectites

Spontaneous Rehydroxylation of a Dehydroxylated Cis-Vacant Montmorillonite

Dehydroxylation Behavior of Heat-Treated and Steam-Treated Homoionic cis-Vacant Montmorillonites

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