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Sorpčné vlastnosti jemnozrnných frakcií smektitov
- 1.0578011 - ÚGN 2024 RIV SK slo C - Conference Paper (international conference)
Dolinská, S. - Znamenáčková, I. - Kyshkarova, V. - Hredzák, S. - Valovičová, Věra - Plevová, Eva - Vaculíková, Lenka - Danková, Z.
Sorpčné vlastnosti jemnozrnných frakcií smektitov.
[Sorption properties of fine-grained smectite fractions.]
Situácia v ekologicky zaťažených regiónoch slovenska a strednej európy. Košice: Ústav geotechniky SAV, v. v. i., 2023 - (Hredzák, S.), s. 91-96. ISBN 978-80-89883-14-1.
[Situácia v ekologicky zaťažených regiónoch Slovenska a strednej Európy -Vedecké sympózium s medzinárodnou účasťou Situácia v ekologicky zaťažených regiónoch slovenska a strednej európy /32./. Hrádok u Jelšavy (SK), 19.10.2023-20.10.2023]
Grant - others:AV ČR(CZ) StrategieAV21/30
Program: StrategieAV
Institutional support: RVO:68145535
Keywords : montmorillonite * activation * surface and sorption properties
OECD category: Analytical chemistry
The aim of the study was the detailed characterization of smectite minerals (before and after their chemical activation) for the preparation of polymer-clay nanocomposites in comparison with the natural untreated material. On the basis of obtained results it can be concluded that activated materials exhibit changes of structural and surface properties. The modification mainly affected meso-macroporous montmorillonite samples. In these cases, the prepared samples are potentially suited to be precursors of multifunctional sorbents with enhanced sorption properties.
The aim of the study was the detailed characterization of smectite minerals (before and after their chemical activation) for the preparation of polymer-clay nanocomposites in comparison with the natural untreated material. On the basis of obtained results it can be concluded that activated materials exhibit changes of structural and surface properties. The modification mainly affected meso-macroporous montmorillonite samples. In these cases, the prepared samples are potentially suited to be precursors of multifunctional sorbents with enhanced sorption properties.
Permanent Link: https://hdl.handle.net/11104/0347061
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