الفهرس 
IntroductionOnly 14 pages are availabe for public view
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Abstract
Producing Nanomaterials from hazardous wastes for water and soil treatment is of great concern. Here, we produced and fully characterized two novel Nanomaterials from sugar beet processing (SBR) and brick factory residuals (BFR) and assed their ability for Cd and Cu sorption in water and reducing metal availability in a contaminated soil. The SBR removed up to 99% of Cu and 91% of Cd in water, and exhibited a significantly faster and higher sorption capacity (qmax (g kg− 1) =1111.1 for Cu and 33.3 for Cd) than BFR (qmax (g kg− 1) =33.3 for Cu and 10.0 for Cd), even at acidic pH. Soil metal availability was significantly reduced by SBR (up to 57% for Cu and 86% for Cd) and BFR (up to 36% for Cu and 68% for Cd) compared to the unamended soil. The higher removal efficacy of SBR over BFR could be attributed to its higher alkalinity (pH = 12.5), carbonate content (82%), and specific surface area, as well as the activity of hydroxyl –OH and Si-O groups. The Nano-scale SBR and BFR, the former particularly, are novel, of low cost, and environmental friendly amendments that can be used for the remediation of metal-contaminated water and soil.