About this Research Topic
Water pollution, exacerbated by industrial activities and urban expansion, presents a severe challenge that necessitates innovative treatment solutions beyond the conventional. Traditional methods, although effective, grapple with issues like high operational costs, limited removal capacities, and adverse environmental effects. The emergence of advanced sustainable polymer composites offers a promising frontier in tackling these drawbacks. These novel materials incorporate the flexibility of polymers with reinforcements such as nanoparticles and natural fibers, enhancing pollutant adsorption, resistance to fouling, and customization of surface characteristics to efficiently eliminate contaminants such as heavy metals, organics, and pathogens.
This Research Topic aims to explore the development and efficacy of advanced sustainable polymer composites in water remediation, intending to broaden their application in removing a diverse array of contaminants. Emphasis will be placed on the creation of composites that not only meet high efficiency in pollutant removal but also align with green chemistry principles by using biodegradable and eco-friendly components. Through rigorous research, the goal is to amplify the capacity, durability, and recyclability of these materials, thus providing a sustainable alternative to current water treatment technologies.
To deepen our understanding and application range of these innovative materials, this Research Topic solicits contributions that examine:
• New developments in polymer composites tailored for water remediation.
• Efficacious strategies for extracting heavy metals, organic pollutants, and pathogens.
• Utilization of nanotechnology, bio-based polymers, and enhanced surface functionalities.
• Breakthroughs in adsorption technology, advanced filtration methods, and sustainable recycling practices.
• Comprehensive evaluations of environmental impacts and lifecycle analysis.
This Research Topic aims to explore the development and efficacy of advanced sustainable polymer composites in water remediation, intending to broaden their application in removing a diverse array of contaminants. Emphasis will be placed on the creation of composites that not only meet high efficiency in pollutant removal but also align with green chemistry principles by using biodegradable and eco-friendly components. Through rigorous research, the goal is to amplify the capacity, durability, and recyclability of these materials, thus providing a sustainable alternative to current water treatment technologies.
To deepen our understanding and application range of these innovative materials, this Research Topic solicits contributions that examine:
• New developments in polymer composites tailored for water remediation.
• Efficacious strategies for extracting heavy metals, organic pollutants, and pathogens.
• Utilization of nanotechnology, bio-based polymers, and enhanced surface functionalities.
• Breakthroughs in adsorption technology, advanced filtration methods, and sustainable recycling practices.
• Comprehensive evaluations of environmental impacts and lifecycle analysis.
Keywords: Sustainable polymer composites, Waste water treatment, Lignocellulose, Carbon-based, Nanoparticles
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
