Varsha L. Kamble
Abstract
Nanomaterials provide a unique way for the separation of contaminants from the environment by their large surface area, chemical modification capacity, and ease of regeneration. These properties make nanomaterials highly effective in removing pollutants from water and air, offering a promising solution for addressing environmental pollution. Additionally, their small size allows for easy dispersion and penetration into contaminated areas for thorough removal of contaminants. They have a lot of surface area, can be recycled, and are easy to desorb metal ions from while still being able to absorb them. This makes them easier to chemically change and recycle, which is why they are often used for cleanup. Furthermore, carbon nanoparticles may be easily mixed with other nanomaterials and functionalized, resulting in a multifunctional nano adsorbent. For remediation, nanomaterials primarily rely on the use of various methods such as adsorption, chemical modification, and filtration. Additionally, carbon nanoparticles have shown promising results in the removal of organic pollutants due to their high adsorption capacity and efficiency. By combining different nanomaterials, researchers can enhance the remediation process by targeting a wider range of contaminants. We have discussed current advances and the uses of carbon nano composites in the treatment of heavy metal-contaminated environments, as well as their use in environmental remediation, in this article. Carbon nano composites have shown great potential in removing heavy metals from contaminated environments due to their high surface area and reactivity. Additionally, their versatility in being combined with other nanomaterials allows for tailored solutions to specific remediation challenges.