Chemically modified smectites
TL;DR: In this paper, the negative charge on the smectite layers can be increased via reduction of structural Fe(III) to Fe(II) or decreased via fixation of small exchangeable cations such as Li +, upon treatment at elevated temperatures.
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Abstract: This paper summarizes recent results obtained on chemical modifications of smectites. These include replacement of exchangeable cations with protons, a process connected with smectite autotransformation - attack of protons on the layers and liberation of central atoms from the octahedral and tetrahedral sheets, causing modification of the acid sites on the particles. More severe modifications occur during dissolution in inorganic acids, when the layers are dissolved and three- dimensional amorphous silica is formed. The negative charge on the smectite layers can be increased via reduction of structural Fe(III) to Fe(II) or decreased via fixation of small exchangeable cations, such as Li + , upon treatment at elevated temperatures. Heating for 24 h at different temperatures between 100 and 300o C leads to a series of chemically similar materials of different charge, prepared from the same parent mineral. Such series are suitable for investigation of the effect of the layer charge on selected properties of smectites. Fe(II) can be partly stabilized in reduced smectites by Li fixation upon heating.
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Citations
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References
Verlust der Austauschfähigkeit von Lithiumionen an Bentonit durch Erhitzung
Ulrich Hofmann,Richard Klemen +1 more
TL;DR: Bentonit mit austauschfahigen Li-Ionen verliert das innerkristalline quellvermogen zwischen 105 and 125° C as mentioned in this paper.
350
Comparative FT-IR study of structural modifications during acid treatment of dioctahedral smectites and hectorite
TL;DR: In this paper, seven dioctahedral smectites were leached in HCl under different treatment conditions and the final reaction product obtained from acid dissolution of both smectite types is a hydrous amorphous silica phase.
300