Nanomaterials, Journal Year: 2024, Volume and Issue: 14(11), P. 944 - 944

Published: May 27, 2024

Aluminosilicates, abundant and crucial in both natural environments industry, often involve uncontrollable chemical components when derived from minerals, making further purification reaction more complicated. This study utilizes pure alumina fumed silica powders as controllable sources, enhancing aluminosilicate reactivity through room temperature (non-firing) processing providing a robust framework that resists mechanical stress high temperature. By embedding iron-based metal–organic frameworks (Fe-MOF/non-firing membranes) within the above matrix, these ceramic membranes not only preserve their robustness but also gain significant functionality, capacity to removing phytochromes vegetables. Sodium hydroxide sodium silicate were selected activators successfully prepare high-strength, non-firing membranes. These demonstrated flexural strength of 8.7 MPa under wet-culture conditions with molar ratio Al2O3:SiO2:NaOH:Na2SiO3 at 1:1:0.49:0.16. The chlorophyll adsorption spinach conducted on showed removal rate exceeding 90% pH = 9, highlighting its potential for selective chlorophyll. underscores MOF-enhanced environmental applications, particularly agricultural pollution control.

Language: Английский