Conversion of cassava rhizome into efficient carbonaceous adsorbents for removal of dye in water

Abstract: The development of sustainable adsorbent materials for removing pollutants from water is of great interest for environmental remediation and human safety. This work presents the beneficial use of cassava rhizome (CR) to produce economical and efficient carbonaceous adsorbents for dye removal. CR derived activated carbons (AC) and magnetic AC were fabricated by one-pot hydrothermal carbonization in the presence of ZnCl2 and ZnCl2/FeCl3 respectively, followed by pyrolysis at 800 °C. Porosity tuning and degree of… Show more

“…For example, research shows the creation of highly porous nanostructures from waste Agave sisalana for supercapacitors, highlighting carbon materials with micropore and mesopore dominance achieved through ZnCl 2 activation [ 30 ]. Additionally, studies showcase the ability to tailor porosity and magnetic properties of biochar adsorbents from cassava rhizome for dye removal by varying ZnCl 2 amounts [ 31 ]. Likewise, ZnCl 2 , along with H 3 PO 4 and FeCl 3 , was used to create activated carbon from chrysanthemum waste for methylene blue adsorption, enhancing the adsorption efficiency [ 32 ].…”

Adsorptive performances and valorization of green synthesized biochar–based activated carbon from banana peel and corn cob composites for the abatement of Cr(VI) from synthetic solutions: Parameters, isotherms, and remediation studies

“…For example, research shows the creation of highly porous nanostructures from waste Agave sisalana for supercapacitors, highlighting carbon materials with micropore and mesopore dominance achieved through ZnCl 2 activation [ 30 ]. Additionally, studies showcase the ability to tailor porosity and magnetic properties of biochar adsorbents from cassava rhizome for dye removal by varying ZnCl 2 amounts [ 31 ]. Likewise, ZnCl 2 , along with H 3 PO 4 and FeCl 3 , was used to create activated carbon from chrysanthemum waste for methylene blue adsorption, enhancing the adsorption efficiency [ 32 ].…”

Adsorptive performances and valorization of green synthesized biochar–based activated carbon from banana peel and corn cob composites for the abatement of Cr(VI) from synthetic solutions: Parameters, isotherms, and remediation studies