Carbon nanotubes filter9/25/2023 ![]() In addition, the application of electrochemistry could reduce filter fouling rate by in situ foulant destruction and biological inactivation and reduce maintenance efforts for optimal membrane permeability. Previous studies have demonstrated that CNT filters were effective to remove aqueous organic pollutants, such as salts, proteins, viruses, azo dyes, pharmaceuticals, perfluorinated chemicals, and phenol. ![]() The environmental application of electrochemistry had gained more and more popularity and has been extensively reviewed in previous studies. Electrochemistry has been widely applied in separation, corrosion control, electroanalytical sensors, electroplating, and fuel cells, as well as in environmental applications, such as wastewater treatment, environmental sensing, and batteries. The combination of electrochemistry and CNT filters has further expanded the application of CNT filters for water and wastewater treatment. The application of CNTs in water and wastewater treatment has been extensively reviewed previously. The high surface area (30–500 m 2 g -1) and electrochemical degradation (10 4~10 6 S m -1) of CNT filters result in a high adsorption capability for water and wastewater treatment. Owing to the unique electronic, mechanical, and chemical properties, carbon nanotubes (CNTs) received extensive attention since 1990 and are useful for a variety of applications in energy studies and biomedical devices. Carbon nanotube (CNT) filters have been extensively studied for water and wastewater treatment during recent years. ![]()
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