The cell wall of green microalgae and its role in heavy metal removal

Heavy metals in industrial wastewaters are posing a serious threat to the environment and to human health. Microalgae are increasingly being seen as potential solutions to this problem as they can remove pollutants through biosorption. This process offers certain advantages over other more traditional metal removal techniques as it is simple, inexpensive, eco-friendly, and can be performed over a wide range of experimental conditions. Biosorption is possible due to the unique and complex structure of the microalgal cell wall. The variety of functional groups on the surface of the cell wall (such as carboxyl or amino groups) can act as binding sites for the heavy metals, thus removing them from the environment. This review focuses on the cell wall composition and structure of the most commonly used microalgae in heavy metal removal and shows the role of their cell wall in the biosorption process. This review also aims to report the most commonly used models to predict the velocity of microalgal biosorption and the removal capacities.

Automated summary

Heavy metals in industrial wastewaters pose a serious threat to the environment and human health. Microalgae are increasingly being recognized as potential solutions for removing pollutants through biosorption due to their unique cell wall structure. The review focuses on the composition and structure of microalgae cell walls in heavy metal removal, as well as commonly used models to predict the velocity and capacity of biosorption by microalgae.