Recent Advances in Functional Polymer Materials for Water Treatment

Author: mycolabadmin
6/14/2025
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Summary

Scientists are developing new plastic-like materials that can clean polluted water more effectively and sustainably. These functional polymers can trap heavy metals, remove unwanted dyes, and even help treat wastewater from oil drilling. The research shows these materials work much better than traditional methods, and they can be recycled multiple times, making them environmentally friendly solutions to global water pollution problems.

Background

Global water pollution is increasing in severity, necessitating innovative approaches to water treatment. Functional polymer materials possess unique physicochemical properties including large molecular weight, controllable structure, and large specific surface area, making them suitable for removing pollutants such as heavy metal ions, organic dyes, and microorganisms from water.

Objective

This Special Issue aims to collect and publish high-quality research on the latest advances in functional polymer materials for water treatment. The collection encompasses original articles, reviews, and case studies on polymeric flocculants and adsorbents, separation membranes, ion exchange resins, and materials for enhanced biological water treatment.

Results

The collection demonstrates significant breakthroughs including: ionic liquid cross-linked hydrogels removing 98.1% of Cr³⁺, fungal melanin achieving 595.974 mg/g Cr(VI) adsorption capacity, magnetic chitosan composites with 426 mg/g Cd²⁺ adsorption, and AgCl/ZnO nanofiber membranes achieving 98% methylene blue photodegradation with >95% efficiency after five cycles.

Conclusion

Functional polymer materials demonstrate excellent performance in heavy metal ion adsorption, organic dye degradation, and oilfield wastewater treatment through optimized structure and function. Future research should focus on material performance optimization, technology integration with machine learning, comprehensive engineering validation, and improved sustainability assessment systems to achieve high efficiency, intelligence, and carbon neutrality in water treatment.

Published in:Polymers,
Study Type:Review and Original Research Collection,
Source: PMID: 40574182, DOI: 10.3390/polym17121654