adsorption capacity – mycolab.ai

Silk-based microparticles for the adsorption of methylene blue: formulations, characterization, adsorption study, in silico molecular docking, and molecular dynamics simulation

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This research demonstrates that microparticles made from silk fibroin, a protein derived from silkworm cocoons, are exceptionally effective at removing methylene blue dye from water. The silk-based particles work about 32 times better than other forms of silk and can absorb large amounts of the toxic dye. Scientists used computer simulations to understand exactly how the silk protein attracts and binds the dye molecules, providing insights for creating even better eco-friendly water treatment materials.

Cellulose-Based Hydrogels for Wastewater Treatment: A Focus on Metal Ions Removal

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Heavy metal pollution from industrial activities poses serious health risks including cancer, kidney damage, and neurological problems. This review explores how cellulose-based hydrogels—soft, water-absorbing materials made from natural plant sources—can effectively remove toxic metals from contaminated water. These hydrogels are cost-effective, environmentally friendly, and can be reused multiple times, making them promising alternatives to conventional water treatment methods for industrial and municipal applications.

Research Keyword: adsorption capacity

Silk-based microparticles for the adsorption of methylene blue: formulations, characterization, adsorption study, in silico molecular docking, and molecular dynamics simulation

Cellulose-Based Hydrogels for Wastewater Treatment: A Focus on Metal Ions Removal