This research paper explores the cutting-edge realm of water purification through the integration of graphene-based nano metal oxide composites. In recent years, the escalating global demand for clean and potable water has intensified the quest for advanced materials capable of efficient contaminant removal. This study delves into the synthesis, characterization, and application of graphene-nano metal oxide hybrids, elucidating their unique physicochemical properties and synergistic effects in water treatment processes. The investigation encompasses the adsorption, catalytic degradation, and antibacterial activities of these composites, shedding light on their potential as multifunctional platforms for sustainable and high-performance water purification technologies. The comprehensive analysis presented herein aims to contribute to the evolving landscape of nanomaterials for environmental remediation, offering valuable insights for researchers, engineers, and policymakers invested in addressing the pressing challenges of water quality worldwide.

Graphene, Nano Metal Oxide Composites, Water Purification, Adsorption, Catalytic Degradation, Antibacterial Activity,