Litcius/Paper detail

Application Progress of Magnetic Chitosan in Heavy Metal Wastewater Treatment

Xiaotian Wang, Yan Zhuang, Kinjal J. Shah, Yongjun Sun

2025Magnetochemistry9 citationsDOIOpen Access PDF

Abstract

Wastewater containing heavy metals can come from a variety of sources and is extremely toxic and hard to break down. Conventional treatment methods can easily result in secondary pollution and are expensive. The research on magnetic chitosan composites, a new adsorbent in the treatment of heavy metal wastewater, is methodically reviewed in this paper. It offers a theoretical foundation for the creation of more environmentally friendly and effective wastewater treatment technology by examining its preparation and modification technology, adsorption mechanism, and application performance. This paper provides a summary of the technology used to prepare and modify magnetic chitosan composites. Both the cross-linking and co-precipitation methods are thoroughly examined. A summary of the fundamental process of heavy metal ion adsorption is provided, along with information on the chemical and physical impacts. Of these, chemical adsorption has been shown to work well with the majority of heavy metal adsorption systems. According to application research, magnetic chitosan exhibits good adaptability in real-world industrial wastewater treatment and has outstanding adsorption performance for various heavy metal ion types and multi-metal coexistence systems (including synergistic/competitive effects). Lastly, the optimization of the material preparation and modification process, the mechanism influencing the various coexisting ion types, and the improvement of regeneration ability should be the main areas of future development.

Topics & Concepts

ChitosanWastewaterHeavy metalsMetalSewage treatmentEnvironmental scienceMaterials scienceChemistryNanotechnologyEnvironmental chemistryChemical engineeringMetallurgyEnvironmental engineeringEngineeringAdsorption and biosorption for pollutant removalNanomaterials for catalytic reactionsAnalytical chemistry methods development