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W4387394080 abstract "Dyes and pharmaceuticals in wastewater are categorized as serious hazardous pollutants due to their nonbiodegradability and therefore, must be removed before discharge in water resources. In this work, a novel nanobiosorbent was fabricated via microwave crosslinking of nanosilica gel with banana peels nanobiochar (BPNB) and chitosan hydrogel (Chit Hgel) to produce BPNB-NSiO2-Chit Hgel nanobiosorbent (22.48-26.23 nm). The effects of nanobiosorbent dosage (1–50 mg), pH (2–12), shaking time (1– 45 min), pollutant concentration (5–100 mg L-1), temperature (288–333 K), and interfering salts on the adsorption of Erythromycin antibiotic (ERM) and Congo red dye (CRD) pollutants were investigated and optimized. Pseudo-second-order model revealed a perfect fitting to the experimental data, while Langmuir model achieved (R2 = 0.997 for ERM and R2 = 0.992 for CRD) as the highest correlation coefficients. Moreover, adsorptive capture reactions of ERM and CRD onto BPNB-NSiO2-Chit Hgel were classified as spontaneous and endothermic. The removal of ERM (92.80–96.50%) and CRD (92.80–95.0%) from tap, sea, and wastewater was successfully established to confirm the validity and capability of the investigated BPNB-NSiO2-Chit Hgel nanobiosorbent in removal of these two pollutants from polluted water samples." @default.
W4387394080 created "2023-10-07" @default.
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W4387394080 date "2023-10-01" @default.
W4387394080 modified "2023-10-07" @default.
W4387394080 title "Fast and efficient adsorptive capture of Congo red and Erythromycin pollutants by a novel nanobiosorbent from crosslinked nanosilica with nanobiochar and chitosan" @default.
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W4387394080 doi "https://doi.org/10.1016/j.inoche.2023.111557" @default.
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