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W2238384805 abstract "The present study describes synthesis and characterization of diacrylamidoxime triaethylenetetralevopimaramide (DPAO) and its use in surface modification of Fe3O4 magnetic nanoparticles to obtain DPAO-based magnetic nanoparticles (DPAO-MNPs). The prepared composite was characterized by FTIR, 1HNMR, XRD, DLS, TEM, SEM and EDX. Vibrating sample magnetometer is used to determine the magnetic properties of DPAO-MNPs. Results of analyses indicate that the surface of Fe3O4 was successfully capped with DPAO. The adsorption features of the prepared composite towards thorium ions were investigated in a batch system. Kinetic study of Th(IV) adsorption on DPAO-MNPs indicate the adsorption equilibrium achieved within 150 min and is pH dependent. The adsorption results were described mathematically using Langmuir and Freundlich sorption models. The composite showed a maximum Th(IV) loading capacity of 666 mg/g at 25 °C and pH 4. The thermodynamic results indicated that the adsorption process was thermodynamically favorable, spontaneous and endothermic nature. The obtained results suggest that DPAO-MNPs composite may be considered as a potential fast, effective and simple adsorbent for sorption thorium(IV) from water." @default.
W2238384805 created "2016-06-24" @default.
W2238384805 creator A5049299674 @default.
W2238384805 creator A5049773825 @default.
W2238384805 date "2015-08-01" @default.
W2238384805 modified "2023-09-25" @default.
W2238384805 title "Removal of thorium from water using modified magnetite nanoparticles capped with rosin amidoxime" @default.
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W2238384805 cites W1769973252 @default.
W2238384805 cites W1976345845 @default.
W2238384805 cites W1979370125 @default.
W2238384805 cites W1986113254 @default.
W2238384805 cites W1986250169 @default.
W2238384805 cites W1987951951 @default.
W2238384805 cites W1990003329 @default.
W2238384805 cites W1992985984 @default.
W2238384805 cites W1993439906 @default.
W2238384805 cites W1998329072 @default.
W2238384805 cites W2001360257 @default.
W2238384805 cites W2004793631 @default.
W2238384805 cites W2005769369 @default.
W2238384805 cites W2006063361 @default.
W2238384805 cites W2008970990 @default.
W2238384805 cites W2012529487 @default.
W2238384805 cites W2012666359 @default.
W2238384805 cites W2015411042 @default.
W2238384805 cites W2015647535 @default.
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W2238384805 cites W2022121183 @default.
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W2238384805 cites W2024316371 @default.
W2238384805 cites W2027527206 @default.
W2238384805 cites W2029770102 @default.
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W2238384805 cites W2031953698 @default.
W2238384805 cites W2035739193 @default.
W2238384805 cites W2036038272 @default.
W2238384805 cites W2039698484 @default.
W2238384805 cites W2040057553 @default.
W2238384805 cites W2047605313 @default.
W2238384805 cites W2048585081 @default.
W2238384805 cites W2054377467 @default.
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W2238384805 cites W2082727221 @default.
W2238384805 cites W2090195624 @default.
W2238384805 cites W2131381817 @default.
W2238384805 cites W2135846523 @default.
W2238384805 cites W2143113167 @default.
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W2238384805 doi "https://doi.org/10.1016/j.matchemphys.2015.07.038" @default.
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