Ing. Martin Palušák
| Line | Position | Department | Office number |
| +420 48535 3937 | Employee | Department of Environmental Chemistry | L 05016 |
Publications
- M. Gheibi, M. Palušák, D. Silvestri, M. Černík, S. Waclawek, A novel perspective on heavy metal decontamination using waste-derived zeolite sludge composites, [Online], 2025
- M. Gheibi, M. Palušák, D. Silvestri, M. Černík, S. Waclawek, Adsorption of Cd2+ Using Brick-Sludge Composite: A Circular Economy Approach, [Online], 2025
- M. Gheibi, M. Palušák, D. Silvestri, M. Černík, S. Waclawek, Circular Economy Approach for Cr⁶⁺ Adsorption from Water Using Black Carbon, [Online], 2025
- M. Gheibi, S. Masoomi, M. Eftekhari, M. Akrami, M. Palušák, D. Silvestri, M. Černík, S. Waclawek, Heavy metals adsorption using CDW adsorbents: A sustainable path for water purification, Journal of hazardous materials advances, Amsterdam, Elsevier B.V., p. 1-18, 18 pages, ISSN: 2772-4166, n. 9, [Online], 2025
- M. Gheibi, M. Palušák, D. Silvestri, M. Černík, S. Waclawek, Intelligent Optimization of Heavy Metal Adsorption onto LDC Wastes, [Online], 2025
- M. Gheibi, M. Palušák, D. Silvestri, M. Černík, S. Waclawek, Prediction of Heavy Metal Emissions from Uranium Mines to Water Resources During Flood Disasters Using Fick‘s Second Law Modeling, [Online], 2025
- M. Gheibi, M. Palušák, D. Silvestri, S. Waclawek, Electrokinetic Analysis of Zn²⁺ Fate and Transport in Porous Media, [Online], 2024
- M. Gheibi, M. Palušák, D. Silvestri, S. Waclawek, Response Surface Methodology Applied to Recovery of CO2+ from Water Resources, [Online], 2024