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Biochar-facilitated remediation of nanoplastic contaminated water: Effect of pyrolysis temperature induced surface modifications

Journal of Hazardous Materials 2021 227 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Zahid Ahmad Ganie, Ekta Tiwari, Nisha Singh, Zahid Ahmad Ganie, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Nisha Singh, Nisha Singh, Gopala Krishna Darbha Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Zahid Ahmad Ganie, Ekta Tiwari, Nisha Singh, Nisha Singh, Zahid Ahmad Ganie, Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Nitin Khandelwal, Zahid Ahmad Ganie, Ekta Tiwari, Ekta Tiwari, Nisha Singh, Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Zahid Ahmad Ganie, Nisha Singh, Nitin Khandelwal, Ekta Tiwari, Nitin Khandelwal, Nisha Singh, Gopala Krishna Darbha Nitin Khandelwal, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Nisha Singh, Zahid Ahmad Ganie, Zahid Ahmad Ganie, Zahid Ahmad Ganie, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Nitin Khandelwal, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nitin Khandelwal, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Zahid Ahmad Ganie, Zahid Ahmad Ganie, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Gopala Krishna Darbha

Summary

Researchers synthesized sugarcane bagasse biochar at three pyrolysis temperatures and found that biochar produced at 750°C removed over 99% of nanoplastics from water within 5 minutes, with monolayer sorption kinetics and a capacity of 44.9 mg/g, offering a rapid and efficient agricultural-waste-derived remediation approach.

"Nanoplastics- the emerging contaminants" and "agricultural waste to resource conversion" both are currently at the scientific frontiers and require solutions. This study aims to utilize sugarcane bagasse-derived biochar for the removal of nanoplastics (NPs) from aqueous environment. Three types of biochar were synthesized at three different pyrolysis temperatures, i.e. 350, 550, and 750 ℃ and evaluated for their potential in removing NPs. Effect of various environmental parameters, i.e., competing ions, pH, humic acid and complex aqueous matrices on NPs sorption was also studied. Results showed that attributing to decreased carbonyl functional groups, increased surface area and pore abundance, biochar prepared at 750 ℃ showed drastically higher NPs removal (>99%), while BC-550 and BC-350 showed comparatively lower NPs sorption (<39% and <24%, respectively). Further sorption studies confirmed instantaneous NPs removal with equilibrium attainment within 5 min of interaction and efficient NPs sorption capacity, i.e. 44.9 mg/g for biochar prepared at 750 ℃. Non-linear-kinetic modeling suggested pseudo 1st order removal kinetics while isotherm and thermodynamic modeling confirmed- monolayer instantaneous sorption of NPs sorption. Enhanced electrostatic repulsion resulted in decrease in NPs sorption at alkaline conditions, whereas steric hindrance caused limited removal (<25%) at higher humic acid concentrations.

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