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W4313426987 endingPage "137731" @default.
W4313426987 startingPage "137731" @default.
W4313426987 abstract "Flumequine (FLU) and nadifloxacin (NAD), as emerging contaminants, have received extensive attention recently. In this study, a triazine-based microporous organic network (TMON) was synthetized and developed as an excellent adsorbent for FLU and NAD. The adsorption behavior and influence factors were investigated in both single and binary systems. Insight into the adsorption mechanisms were conducted through experiments, models, and computational studies, from macro and micro perspectives including functional groups, adsorption sites, adsorption energy and frontier molecular orbital. The results showed that the maximum adsorption capacities of TMON for FLU and NAD are 325.27 and 302.28 mg/g under 30 °C higher than records reported before. TMON exhibits the better adaptability and anti-interference ability for influence factors, leading to the preferable application effect in kinds of real water samples. TMON also shows the application potentials for the adsorption of other quinolone antibiotics and CO2 capture. Hydrogen-bonding interaction played the most critical role compared to π-π stacking effect, π-π electron-donor-acceptor interaction, CH-π interaction, and hydrophobic interaction during the adsorption. TMON could be regarded as a promising environmental adsorbent for its large surface area, stable physical and chemical properties, excellent recyclability, and wide range of applications." @default.
W4313426987 created "2023-01-06" @default.
W4313426987 creator A5009010755 @default.
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W4313426987 creator A5078818909 @default.
W4313426987 creator A5081628324 @default.
W4313426987 date "2023-02-01" @default.
W4313426987 modified "2023-10-03" @default.
W4313426987 title "Facile synthesis of triazine-based microporous organic network for high-efficient adsorption of flumequine and nadifloxacin: A comprehensive study on adsorption mechanisms and practical application potentials" @default.
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W4313426987 doi "https://doi.org/10.1016/j.chemosphere.2022.137731" @default.
W4313426987 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36608878" @default.
W4313426987 hasPublicationYear "2023" @default.
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