Selective separation of phenol from salicylic acid effluent over molecularly imprinted polystyrene nanospheres composite alumina membranes

Yan Liu; Minjia Meng; Juntong Yao; Zulin Da; Yonghai Feng; Yongsheng Yan; Chunxiang Li

doi:10.1016/j.cej.2015.10.063

Selective separation of phenol from salicylic acid effluent over molecularly imprinted polystyrene nanospheres composite alumina membranes

Yan Liu, Minjia Meng, Juntong Yao, Zulin Da, Yonghai Feng, Yongsheng Yan, Chunxiang Li

Jiangsu University

科研成果: 期刊稿件 › 文章 › 同行评审

32 引用（Scopus）

摘要

Novel molecularly imprinted polystyrene nanospheres composite alumina membranes (MIPS/CAM) were prepared by modifying the alumina membranes with MIPS nanospheres via microemulsion polymerization method. The as-prepared MIPS/CAM were characterized by Raman spectra, SEM, and UV-vis techniques. The particle sizes of MIPS nanospheres ranging from 25.3 to 112.5nm over MIPS/CAM could be tuned by controlling the surfactant amount and the adding rate of oil phase into water phase. The flux study showed that the MIPS/CAM possessed good porosity. The selective recognition of phenol over MIPS/CAM was much higher than that over the NIPS/CAM. The phenol adsorption amount and the selectivity coefficients of MIPS/CAM to phenol (α'_phenol/SA) increased with decreasing the particle sizes of MIPS nanospheres. The MIPS/CAM showed good recovery performance of phenol from industrial SA effluent.

源语言	英语
页（从-至）	622-631
页数	10
期刊	Chemical Engineering Journal
卷	286
DOI	https://doi.org/10.1016/j.cej.2015.10.063
出版状态	已出版 - 15 2月 2016
已对外发布	是

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title = "Selective separation of phenol from salicylic acid effluent over molecularly imprinted polystyrene nanospheres composite alumina membranes",

abstract = "Novel molecularly imprinted polystyrene nanospheres composite alumina membranes (MIPS/CAM) were prepared by modifying the alumina membranes with MIPS nanospheres via microemulsion polymerization method. The as-prepared MIPS/CAM were characterized by Raman spectra, SEM, and UV-vis techniques. The particle sizes of MIPS nanospheres ranging from 25.3 to 112.5nm over MIPS/CAM could be tuned by controlling the surfactant amount and the adding rate of oil phase into water phase. The flux study showed that the MIPS/CAM possessed good porosity. The selective recognition of phenol over MIPS/CAM was much higher than that over the NIPS/CAM. The phenol adsorption amount and the selectivity coefficients of MIPS/CAM to phenol (α'phenol/SA) increased with decreasing the particle sizes of MIPS nanospheres. The MIPS/CAM showed good recovery performance of phenol from industrial SA effluent.",

keywords = "Composite alumina membrane, Molecularly imprinted polystyrene nanospheres, Phenol, Salicylic acid, Selective separation",

author = "Yan Liu and Minjia Meng and Juntong Yao and Zulin Da and Yonghai Feng and Yongsheng Yan and Chunxiang Li",

note = "Publisher Copyright: {\textcopyright} 2015 Elsevier B.V.",

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doi = "10.1016/j.cej.2015.10.063",

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T1 - Selective separation of phenol from salicylic acid effluent over molecularly imprinted polystyrene nanospheres composite alumina membranes

AU - Liu, Yan

AU - Meng, Minjia

AU - Yao, Juntong

AU - Da, Zulin

AU - Feng, Yonghai

AU - Yan, Yongsheng

AU - Li, Chunxiang

PY - 2016/2/15

Y1 - 2016/2/15

N2 - Novel molecularly imprinted polystyrene nanospheres composite alumina membranes (MIPS/CAM) were prepared by modifying the alumina membranes with MIPS nanospheres via microemulsion polymerization method. The as-prepared MIPS/CAM were characterized by Raman spectra, SEM, and UV-vis techniques. The particle sizes of MIPS nanospheres ranging from 25.3 to 112.5nm over MIPS/CAM could be tuned by controlling the surfactant amount and the adding rate of oil phase into water phase. The flux study showed that the MIPS/CAM possessed good porosity. The selective recognition of phenol over MIPS/CAM was much higher than that over the NIPS/CAM. The phenol adsorption amount and the selectivity coefficients of MIPS/CAM to phenol (α'phenol/SA) increased with decreasing the particle sizes of MIPS nanospheres. The MIPS/CAM showed good recovery performance of phenol from industrial SA effluent.

AB - Novel molecularly imprinted polystyrene nanospheres composite alumina membranes (MIPS/CAM) were prepared by modifying the alumina membranes with MIPS nanospheres via microemulsion polymerization method. The as-prepared MIPS/CAM were characterized by Raman spectra, SEM, and UV-vis techniques. The particle sizes of MIPS nanospheres ranging from 25.3 to 112.5nm over MIPS/CAM could be tuned by controlling the surfactant amount and the adding rate of oil phase into water phase. The flux study showed that the MIPS/CAM possessed good porosity. The selective recognition of phenol over MIPS/CAM was much higher than that over the NIPS/CAM. The phenol adsorption amount and the selectivity coefficients of MIPS/CAM to phenol (α'phenol/SA) increased with decreasing the particle sizes of MIPS nanospheres. The MIPS/CAM showed good recovery performance of phenol from industrial SA effluent.

KW - Composite alumina membrane

KW - Molecularly imprinted polystyrene nanospheres

KW - Phenol

KW - Salicylic acid

KW - Selective separation

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U2 - 10.1016/j.cej.2015.10.063

DO - 10.1016/j.cej.2015.10.063

M3 - 文章

AN - SCOPUS:84947567928

SN - 1385-8947

VL - 286

SP - 622

EP - 631

JO - Chemical Engineering Journal

JF - Chemical Engineering Journal

ER -

Selective separation of phenol from salicylic acid effluent over molecularly imprinted polystyrene nanospheres composite alumina membranes

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