AI Article Synopsis
- Zeolites, besides being catalysts, are effective for adsorbing and removing various cations, primarily due to their negative charge from the substitution of Si with Al.
- In a study, the adsorption levels of Na+ on different types of zeolites decreased significantly at low pH-pNa values, despite each zeolite having a constant negative charge.
- The results showed that zeolites with a lower Si/Al ratio have a higher selectivity for H+ adsorption, which can reduce their ability to adsorb other cations and might even lead to their dissolution in water.
Article Abstract
In addition to their well-known uses as catalysts, zeolites are utilized to adsorb and remove various cations from aqueous system. The adsorption of the cations is ascribed to the negative charge of zeolites derived from isomorphous substitution of Si by Al. The amount of Na+ adsorption on 4A, X, Y, Na-P1 and mordenite type zeolites were determined in aqueous media, in a two-cation (Na+ and H+) system. Although each zeolite has a constant amount of negative charge, the amount of Na+ adsorption of each zeolite decreased drastically at low pH-pNa values, where pH-pNa is equal to log{(Na+)/(H+)}. By using the plot of the amount of Na+ adsorption versus pH-pNa, an index of the H+ selectivity, which is similar to the pKa of acids, of each zeolite was estimated, and the index tended to increase with decreasing Si/Al ratio of zeolites. These indicate that zeolites with lower Si/Al and higher negative charge density have higher H+ adsorption selectivity, and in fact, such a zeolite species (4A and X) adsorbed considerable amount of H+ even at weakly alkaline pH region. The adsorption of H+ results in the decrease of cation adsorption ability, and may lead to the dissolution of zeolites in aqueous media.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6271039 | PMC |
| http://dx.doi.org/10.3390/molecules191220468 | DOI Listing |
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