Abstract
The effort to achieve an optimal toxic dye removal adsorbent from wastewater has led to the design of new structures or the modification of existing materials. A practical method to improve the efficacy of current effective adsorbents is to create controlled structural defects to increase effective adsorption sites. Here, Quasi-HKUST, which is prepared by a thermally controlled method from HKUST-1 and has structural defects and more free open metal sites, was used as an absorbent of concord toxic dye. The findings demonstrate that Quasi-HKUST was able to achieve an adsorption capacity of 715 mg.g−1, which is about tenfold more than the original structure. The experimental results demonstrated an exothermic spontaneous mechanism for the dye adsorption process that fit the pseudo-second-order and Langmuir isotherm models. Converting MOFs to quasi-MOFs, especially in materials that are desirable adsorbents for removing pollutants, can be a turning point in improving the absorption capacity and achieving dream absorbents.
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