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    Cao, Yang Liu, Lukuan Xu, Wanzhen Wu, Xiangyang and Huang, Weihong 2014. Surface molecularly imprinted polymer prepared by reverse atom transfer radical polymerization for selective adsorption indole. Journal of Applied Polymer Science, Vol. 131, Issue. 13, p. n/a.

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Preparation of indole surface molecularly imprinted polymer by atom transfer radical emulsion polymerization and its adsorption performance

  • Yang Wenming (a1), Cao Yang (a2), Xu Xiaoling (a2), Zhou Zhiping (a3), Liu Lukuan (a4) and Xu Wanzhen (a4)...
Abstract
Abstract

The indole molecularly imprinted polymer (indole-MIP) was synthesized by atom transfer radical emulsion polymerization (ATREP). The novel adsorbent was used to adsorb indole from fuel oil. The indole-MIP had a high selectivity to indole, and the mass transfer limitations were overcome. The property and morphology of indole-MIP were described by a series of characterization methods. A great specific area and more pores of indole-MIP were shown. The static adsorption experiments display that equilibrium adsorption capacity of indole-MIP was 34.488 mg/g. The adsorption process was spontaneous by thermodynamic analysis, and a dense mass of indole was adsorbed onto indole-MIP at a proper low temperature (298 K). Pseudo-second-order kinetic model was more fitted with experimental data. Both Langmuir and Freundlich isotherm models were obeyed by adsorption isotherm test. The selective and competitive performances of indole-MIP were favorable, and the regeneration capacity was appreciable.

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COPYRIGHT: © Materials Research Society 2013 
Corresponding author
a)Address all correspondence to these authors. e-mail: zhouzp@ujs.edu.cn
b)e-mail: xwz09@ujs.edu.cn
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