Journal of Earth & Environmental Waste Management
- ISSN: 3065-8799
Muhammad Farhan and Osama Aziz
Water pollution has become a global problem. Sources of wastewater majorly include industrial and commercial sectors. To cater the exponential increase in clean water, efficient technologies are needed to treat wastewater. Several techniques such as redox reactions, membrane filtrations, mechanical processes, chemical treatment and adsorption techniques have been employed. However their cost and effectiveness is still a major problem. In this study we employed an effective wastewater treatment technique by synthesizing NiCoMn MOFs using a simple hydrothermal technique, and characterized the properties using XRD and SEM for their possible characteristics. XRD analysis confirmed the successful synthesis of NiCoMn MOFs. Sufficient information regarding the surface morphology and topology was given by the SEM analysis which proved a nanoporous structure with high surface area effective for adsorption and oxidative catalysis of contaminants in wastewater. Moreover, a high electrostatic attraction between the MOFs was observed which could attract oppositely charged contaminants. The results showed a high potential for the synthesized NiCoMn MOFs for wastewater treatment applications.