Modulation of metal organic framework hybrid cotton for efficient sweeping of dyes and pesticides from wastewater

The current report interested in removal of different pollutants including dyes and pesticides from water using hybrids containing functionalized cotton and metal organic framework (MOF). Cotton fabrics were firstly functionalized by interaction with oxalyl chloride and then different MOFs were enclosed within functionalized cotton (Ox-cotton) to produce four different MOF@Ox-cotton hybrids. Micro-particles of MOFs were successfully incorporated within the functionalized cotton. The obtained hybrids were employed in removal of methylene blue (MB) & rhodamine B (RhB) as dyes and diazinon & chlorpyrifos as pesticides. Adsorption of pollutants onto the hybrids was obeyed to pseudo-second order model and Langmuir profile. Maximum adsorption capacities of dyes and pesticides were considerably enlarged from 73.81-59.94 mg/g and 142.67 mg/g for cotton to 75.46-187.03 mg/g and 296.77-464.69 mg/g for MOF@Ox-cotton hybrids, respectively. Compared to the other hybrids, Zr-MOF@Ox-cotton hybrid showed the highest adsorption capacity for all pollutants. Incorporation of NH2-UiO-101-Zr within functionalized cotton, was resulted in enhancement of the maximum adsorption capacities by factor of 2.3-2.5 for dye and 3.1-3.3 for pesticides. The adsorption capacities of NH2-UiO-101-Zr@Ox-cotton hybrid were reduced by 10-12% for dye and 34-39% for pesticides, after 5 regeneration cycles.

Automated summary

This report focuses on the removal of pollutants such as dyes and pesticides from water using hybrids made of functionalized cotton and metal organic frameworks (MOFs). The study successfully incorporated micro-particles of MOFs within functionalized cotton fabric. The hybrids showed enhanced adsorption capacities for dyes and pesticides compared to cotton. Zr-MOF@Ox-cotton hybrid exhibited the highest adsorption capacity for all pollutants. The study demonstrates the potential of MOF@Ox-cotton hybrids as an effective method for water purification.