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Mn-kaolinite synthesis under low-temperature hydrothermal conditions

Choi, Jyung / Komarneni, Sridhar / Park, Man

AbstractMn-kaolinite was hydrothermally synthesized, for the first time, using silicic acid, Mn-carbonate and aluminum nitrate mixed with aqueous solutions of KOH at 100–200 °C for 24–96 h. Without the addition of Mn-carbonate to silicic acid and aluminum nitrate mixture, no crystalline material could be synthesized by hydrothermal treatment up to 200 °C for 6 days. However, by the addition of Mn-carbonate to the above precursors, Mn-kaolinite was synthesized at both 100 and 200 °C for 1 or 2 days, indicating that Mn played an important role in the formation of kaolinite. At a reaction temperature of 100 °C, the Mn-kaolinite peaks became sharper with increasing reaction duration, as expected.

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Mn-kaolinite synthesis under low-temperature hydrothermal conditions

Choi, Jyung / Komarneni, Sridhar / Park, Man

AbstractMn-kaolinite was hydrothermally synthesized, for the first time, using silicic acid, Mn-carbonate and aluminum nitrate mixed with aqueous solutions of KOH at 100–200 °C for 24–96 h. Without the addition of Mn-carbonate to silicic acid and aluminum nitrate mixture, no crystalline material could be synthesized by hydrothermal treatment up to 200 °C for 6 days. However, by the addition of Mn-carbonate to the above precursors, Mn-kaolinite was synthesized at both 100 and 200 °C for 1 or 2 days, indicating that Mn played an important role in the formation of kaolinite. At a reaction temperature of 100 °C, the Mn-kaolinite peaks became sharper with increasing reaction duration, as expected.

Mn-kaolinite synthesis under low-temperature hydrothermal conditions

Choi, Jyung / Komarneni, Sridhar / Park, Man

AbstractMn-kaolinite was hydrothermally synthesized, for the first time, using silicic acid, Mn-carbonate and aluminum nitrate mixed with aqueous solutions of KOH at 100–200 °C for 24–96 h. Without the addition of Mn-carbonate to silicic acid and aluminum nitrate mixture, no crystalline material could be synthesized by hydrothermal treatment up to 200 °C for 6 days. However, by the addition of Mn-carbonate to the above precursors, Mn-kaolinite was synthesized at both 100 and 200 °C for 1 or 2 days, indicating that Mn played an important role in the formation of kaolinite. At a reaction temperature of 100 °C, the Mn-kaolinite peaks became sharper with increasing reaction duration, as expected.

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Title:

Mn-kaolinite synthesis under low-temperature hydrothermal conditions

Contributors:

Choi, Jyung (author) / Komarneni, Sridhar (author) / Park, Man (author)

Published in:

Applied Clay Science ; 44 ; 237-241

Publication date:

2009-02-28

Size:

5 pages

ISSN:

DOI:

https://doi.org/10.1016/j.clay.2009.02.010

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Mn-kaolinite , Hydrothermal synthesis , Silicic acid , Synthetic clay

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