Research Keyword: pseudo-second-order kinetics

Efficient Copper Biosorption by Rossellomorea sp. ZC255: Strain Characterization, Kinetic–Equilibrium Analysis, and Genomic Perspectives

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Scientists found that a bacterium called Rossellomorea sp. ZC255 can efficiently remove copper pollution from water. The strain works best at neutral pH and room temperature, achieving a removal capacity of 253.4 mg of copper per gram of bacterial biomass. By studying the bacteria’s structure and genes, researchers discovered that the removal happens through both surface binding and internal accumulation mechanisms, making it a promising eco-friendly solution for treating polluted water.

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Biosorption of cesium and strontium from aqueous solution by Aspergillus flavus biomass

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This research demonstrates that dead fungal biomass from Aspergillus flavus can effectively remove radioactive cesium and strontium from contaminated water, offering an affordable and environmentally friendly alternative to traditional treatment methods. The fungus shows excellent ability to capture strontium ions (90% removal) and can be reused multiple times by treating it with nitric acid. This finding is particularly relevant following nuclear accidents like Fukushima and provides a sustainable solution for treating radioactive wastewater from nuclear facilities.

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Heavy Metal Remediation by Dry Mycelium Membranes: Approaches to Sustainable Lead Remediation in Water

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This research shows that dried mushroom root networks (mycelium) can effectively remove toxic lead from contaminated water, making it a natural and sustainable alternative to expensive chemical treatments. When enhanced with phosphate treatment, mycelium can remove over 95% of lead even at high concentrations. The mycelium membranes work well in continuous water filtration systems while being biodegradable and environmentally friendly, offering promising solutions for households and communities dealing with lead-contaminated drinking water.

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