Fe-Based Metal-Organic Framework (Mil -53(Fe)) As A Porous Dye Adsorbent From Wastewater

The field of adsorption has significantly evolved with the introduction of metal-organic frameworks (mofs). among the mofs, the mil-53 (m) family especially iron-based mil due to their chemical stability and non-toxic structure has drawn much attention. in this study, mil-53 (fe) was synthesized via a hydrothermal method. comprehensive structural characterization techniques verified successful synthesizing of sample. the langmuir isotherm and pseudo-seconded order kinetic models provide predictions in excellent agreement with equilibrium data. because of high adsorption capacity (1400 mg/g), easy regeneration of the saturated adsorbent and its reusability, it can be concluded that the mil-53(fe) adsorbent could be considered as a promising new adsorbent for water treatment applications.

Fe-based metal-organic framework (MIL -53(Fe)) as a porous dye adsorbent from wastewater

The field of adsorption has significantly evolved with the introduction of metal-organic frameworks (MOFs). Among the MOFs, The MIL-53 (M) family especially iron-based MIL due to their chemical stability and non-toxic structure has drawn much attention. In this study, MIL-53 (Fe) was synthesized via a hydrothermal method. Comprehensive structural characterization techniques verified successful synthesizing of sample. The Langmuir isotherm and pseudo-seconded order kinetic models provide predictions in excellent agreement with equilibrium data. Because of high adsorption capacity (1400 mg/g), easy regeneration of the saturated adsorbent and its reusability, it can be concluded that the MIL-53(Fe) adsorbent could be considered as a promising new adsorbent for water treatment applications.