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W2621445840 abstract "As the main organic pollutants in wastewater, antibiotics and organic dyes are harmful to the environment and public health, and their removal is important but challenging. In this work, highly porous 3D metal-organic frameworks (MOFs) [M2 (PDAD)(H2 O)]n (PCN-124-stu; M=Cu, Zn; H4 PDAD = 5,5'-(pyridine-3,5-dicarbonyl)bis(azanediyl)diisophthalic acid) were synthesized, and PCN-124-stu(Cu) shows excellent chemical and thermal stability. PCN-124-stu(Cu) was used as a host for efficient extraction of various organic dyes, especially the large-molecule dye Coomassie brilliant blue, and fluoroquinolones from water, in comparison with five common MOFs, zeolite 13X, and activated carbon. PCN-124-stu(Cu) exhibits absolute predominance for fluoroquinolone adsorption among these microporous materials because of the H-bonds between fluoroquinolone molecules and the amide groups in the frameworks, except for MIL-100(Cr), which is a mesoporous MOF. Moreover, PCN-124-stu(Cu) could release fluoroquinolones slowly in physiological saline and retained its framework structure after four adsorption/desorption cycles. In addition, PCN-124-stu(Cu) can be used as a platform for selective adsorption of CO2 /CH4." @default.
W2621445840 created "2017-06-15" @default.
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W2621445840 date "2017-07-27" @default.
W2621445840 modified "2023-10-03" @default.
W2621445840 title "An Exceptionally Water Stable Metal-Organic Framework with Amide-Functionalized Cages: Selective CO<sub>2</sub>/CH<sub>4</sub>Uptake and Removal of Antibiotics and Dyes from Water" @default.
W2621445840 cites W1568732296 @default.
W2621445840 cites W1968550114 @default.
W2621445840 cites W1968780456 @default.
W2621445840 cites W1970820491 @default.
W2621445840 cites W1973924879 @default.
W2621445840 cites W1975331722 @default.
W2621445840 cites W1977784561 @default.
W2621445840 cites W1979243460 @default.
W2621445840 cites W1982731022 @default.
W2621445840 cites W1984913662 @default.
W2621445840 cites W1990816240 @default.
W2621445840 cites W2011338778 @default.
W2621445840 cites W2013030981 @default.
W2621445840 cites W2014832032 @default.
W2621445840 cites W2016735011 @default.
W2621445840 cites W2018513726 @default.
W2621445840 cites W2019225216 @default.
W2621445840 cites W2021869469 @default.
W2621445840 cites W2025256923 @default.
W2621445840 cites W2030149323 @default.
W2621445840 cites W2037977783 @default.
W2621445840 cites W2038440906 @default.
W2621445840 cites W2040111618 @default.
W2621445840 cites W2044502066 @default.
W2621445840 cites W2051713066 @default.
W2621445840 cites W2053221234 @default.
W2621445840 cites W2062904068 @default.
W2621445840 cites W2063483776 @default.
W2621445840 cites W2068932039 @default.
W2621445840 cites W2070350986 @default.
W2621445840 cites W2070574483 @default.
W2621445840 cites W2080079641 @default.
W2621445840 cites W2081766466 @default.
W2621445840 cites W2083617041 @default.
W2621445840 cites W2091161882 @default.
W2621445840 cites W2109135544 @default.
W2621445840 cites W2112307556 @default.
W2621445840 cites W2114784691 @default.
W2621445840 cites W2124866205 @default.
W2621445840 cites W2127355586 @default.
W2621445840 cites W2131988676 @default.
W2621445840 cites W2133413783 @default.
W2621445840 cites W2136135866 @default.
W2621445840 cites W2158669671 @default.
W2621445840 cites W2167154209 @default.
W2621445840 cites W2167367493 @default.
W2621445840 cites W2180579413 @default.
W2621445840 cites W2187620852 @default.
W2621445840 cites W2236556070 @default.
W2621445840 cites W2289203727 @default.
W2621445840 cites W2308810958 @default.
W2621445840 cites W2314633702 @default.
W2621445840 cites W2325374631 @default.
W2621445840 cites W2327768373 @default.
W2621445840 cites W2332251702 @default.
W2621445840 cites W2339094010 @default.
W2621445840 cites W2394858910 @default.
W2621445840 cites W4239239515 @default.
W2621445840 cites W4256603424 @default.
W2621445840 cites W2077751077 @default.
W2621445840 doi "https://doi.org/10.1002/chem.201701884" @default.
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