Adsorption of antibiotics from wastewater by cabbage-based N, P co-doped mesoporous carbon materials

Huang, Kuncheng; Yang, Shuquan; Liu, Xiaohao; Zhu, Cui; Qi, Fenglei; Wang, Kui; Wang, Jiaquan; Wang, Qingsheng; Wang, Tuo; Ma, Peiyong

doi:10.1016/j.jclepro.2023.136174

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Adsorption of antibiotics from wastewater by cabbage-based N, P co-doped mesoporous carbon materials

Author(s): Kuncheng Huang , Shuquan Yang , Xiaohao Liu , Cui Zhu , Fenglei Qi , Kui Wang , Jiaquan Wang , Qingsheng Wang , Tuo Wang , Peiyong Ma

Publication date Created: March 2023

Publication date (Print): March 2023

Journal: Journal of Cleaner Production

Publisher: Elsevier BV

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Degradation of antibiotics by advanced oxidation processes: An overview

Jianlong Wang, Run Zhuan (2020)

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Performance of activated carbon and bentonite for adsorption of amoxicillin from wastewater: mechanisms, isotherms and kinetics.

Eric Putra, Ramon Pranowo, Jaka Sunarso … (2009)

Amoxicillin's traces within pharmaceutical effluents have toxic impact toward the algae and other lower organisms within food web. Adsorption, as an efficient process to remove contaminants from water was chosen; in particular with bentonite and activated carbon as adsorbents. The study was carried out at several pH values. Langmuir and Freundlich models were then employed to correlate the equilibria data on which both models equally well-fit the data. For kinetic data, pseudo-first and second order models are selected. While chemisorption is the dominant adsorption mechanism on the bentonite case, both physisorption and chemisorption play important roles for adsorption onto activated carbon. Also, several possible mechanisms for these adsorption systems were elaborated further.