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W4313889413 endingPage "137798" @default.
W4313889413 startingPage "137798" @default.
W4313889413 abstract "Efficient and feasible removal of trace antibiotics from wastewater is extremely important due to its environmental persistence, bioaccumulation, and toxicity, but still remains a huge challenge. Herein, three natural phenol-inspired porous organic polymers were fabricated from natural phenolic-derived monomers (p-hydroxy benzaldehyde, 2,4-dihydroxy benzaldehyde and 2,4,6-trihydroxy benzaldehyde) and melamine via polycondensation reaction. Characterization highlighted that the increasing contents of hydroxyl groups in monomers induced an increase of the polymer total porosity and promoted the formation of a highly microporous structure. With mesopore-dominated pore (average pore diameter 9.6 nm) and large pore volume (1.78 cm3/g), p-hydroxy benzaldehyde-based porous polymer (1-HBPP) exhibited ultra-high maximum adsorption capacity (qmax) of 697.6 mg/g for tetracycline (TC) antibiotic. Meanwhile, the porous networks and plentiful active sites of 1-HBPP enabled fast adsorption kinetics (within 10 min) for TC removal, which could be well described by the pseudo-second-order model. Dynamic adsorption studies showed that 1-HBPP could be used in fixed-bed adsorption column (FBAC) with high removal efficiency (breakthrough volume per unit mass, 13.2 L/g) and dynamic adsorption capacity (201.6 mg/g), which were much higher than other reported adsorbents. The breakthrough curves both well matched with Thomas and Yoon-Nelson models in FBAC treatment. Moreover, removal mechanism analysis affirmed that pore-filling, hydrogen bonding, electrostatic interactions and π-π stacking interactions were main driving forces for TC adsorption. The prepared natural phenol-inspired porous adsorbents show great potential in antibiotics removal from wastewater, and this strategy would promote the sustainable and high-value utilization of natural phenolic compounds." @default.
W4313889413 created "2023-01-10" @default.
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W4313889413 date "2023-03-01" @default.
W4313889413 modified "2023-10-01" @default.
W4313889413 title "Natural phenol-inspired porous polymers for efficient removal of tetracycline: Experimental and engineering analysis" @default.
W4313889413 cites W1439406968 @default.
W4313889413 cites W1672098442 @default.
W4313889413 cites W2009840678 @default.
W4313889413 cites W2050486560 @default.
W4313889413 cites W2256415080 @default.
W4313889413 cites W2343801656 @default.
W4313889413 cites W2550167748 @default.
W4313889413 cites W2612501071 @default.
W4313889413 cites W2624950702 @default.
W4313889413 cites W2790046852 @default.
W4313889413 cites W2801349081 @default.
W4313889413 cites W2889963470 @default.
W4313889413 cites W2899381961 @default.
W4313889413 cites W2931482822 @default.
W4313889413 cites W2944495686 @default.
W4313889413 cites W2944700488 @default.
W4313889413 cites W2955244058 @default.
W4313889413 cites W2965611370 @default.
W4313889413 cites W2973792844 @default.
W4313889413 cites W2976711054 @default.
W4313889413 cites W2977238321 @default.
W4313889413 cites W2994870326 @default.
W4313889413 cites W2995233849 @default.
W4313889413 cites W2999908292 @default.
W4313889413 cites W3001616281 @default.
W4313889413 cites W3009135305 @default.
W4313889413 cites W3009442616 @default.
W4313889413 cites W3010510295 @default.
W4313889413 cites W3015528366 @default.
W4313889413 cites W3017911360 @default.
W4313889413 cites W3024004907 @default.
W4313889413 cites W3025021125 @default.
W4313889413 cites W3033558603 @default.
W4313889413 cites W3037703068 @default.
W4313889413 cites W3045019695 @default.
W4313889413 cites W3046471494 @default.
W4313889413 cites W3047567213 @default.
W4313889413 cites W3048426057 @default.
W4313889413 cites W3048955664 @default.
W4313889413 cites W3080435750 @default.
W4313889413 cites W3081506461 @default.
W4313889413 cites W3081725604 @default.
W4313889413 cites W3088076296 @default.
W4313889413 cites W3091875358 @default.
W4313889413 cites W3097096368 @default.
W4313889413 cites W3112101130 @default.
W4313889413 cites W3112143654 @default.
W4313889413 cites W3113153026 @default.
W4313889413 cites W3117585716 @default.
W4313889413 cites W3120507162 @default.
W4313889413 cites W3130317633 @default.
W4313889413 cites W3133965433 @default.
W4313889413 cites W3134306127 @default.
W4313889413 cites W3146907069 @default.
W4313889413 cites W3160941897 @default.
W4313889413 cites W3166476533 @default.
W4313889413 cites W3172055683 @default.
W4313889413 cites W3184419598 @default.
W4313889413 cites W3189618816 @default.
W4313889413 cites W3198700193 @default.
W4313889413 cites W3199360355 @default.
W4313889413 cites W3205079754 @default.
W4313889413 cites W3205699459 @default.
W4313889413 cites W3207301242 @default.
W4313889413 cites W3216382146 @default.
W4313889413 cites W4210740185 @default.
W4313889413 cites W4210813520 @default.
W4313889413 cites W4211106433 @default.
W4313889413 cites W4220998158 @default.
W4313889413 cites W4225604011 @default.
W4313889413 cites W4228998838 @default.
W4313889413 cites W4293007340 @default.
W4313889413 doi "https://doi.org/10.1016/j.chemosphere.2023.137798" @default.
W4313889413 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36634714" @default.
W4313889413 hasPublicationYear "2023" @default.
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