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AOPAN@Mg(OH)2多层次电纺纤维膜的制备及除铬性能
引用本文:张凡,汪滨,王娇娜,李秀艳,李从举. AOPAN@Mg(OH)2多层次电纺纤维膜的制备及除铬性能[J]. 高等学校化学学报, 2016, 37(11): 2117-2124. DOI: 10.7503/cjcu20160217
作者姓名:张凡  汪滨  王娇娜  李秀艳  李从举
作者单位:1. 北京服装学院材料科学与工程学院,2. 服装材料研究开发与评价北京市重点实验室, 北京 100029
基金项目:国家自然科学基金(21274006;51503005),北京市科技北京百名领军人才工程项目(LJ201614),北京市百千万人才工程项目(110403000402),北京市属高等学校高层次人才引进与培养计划项目-北京市长城学者培育计划项目(CIT&TCD20150306),北京市属高校创新能力提升计划项目(TJSHG201310012021),北京服装学院创新团队与优秀人才选拔与培养计划项目(2014AL-68),北京服装学院重点项目(2016A-03),服装材料研究开发与评价北京市重点实验室开放课题(批准号:2015ZK-02)资助.Supported by the National Natural Science Foundation of China(.21274006
摘    要:以含有—NH2和C═N的偕胺肟化聚丙烯腈(AOPAN)纳米纤维膜为载体, 通过水热法在AOPAN纳米纤维膜表面原位生长片状Mg(OH)2纳米粒子, 得到具有多层次结构的有机-无机电纺复合纳米纤维膜[AOPAN@Mg(OH)2], 并研究了AOPAN@Mg(OH)2的除铬性能. 研究结果表明, 当水热温度为40 ℃, 水热时间为7 h时, AOPAN纳米纤维膜表面形成了明显的多层次结构的Mg(OH)2纳米晶体. 当溶液pH=2时, AOPAN@Mg(OH)2复合纳米纤维膜对Cr(Ⅵ)的吸附符合Langmuir模型, 且满足二级动力学方程, 5 h后最大吸附量达到123.5 mg/g. AOPAN@Mg(OH)2复合纳米纤维膜中含有—NH2基团和Mg(OH)2纳米粒子, 在酸性条件下可以质子化为带正电的—NH3+和Mg(OH)2H+, 通过静电吸附更易与HCrO4-结合. 此类复合纳米纤维膜材料在水体中易取出, 并且在稀NaOH溶液中可以解吸附, 循环使用4次去除率仍可以保持在50%以上.

关 键 词:静电纺丝  复合纳米纤维膜  多层结构  重金属铬离子  聚丙烯腈  
收稿时间:2016-04-08

Preparation of Hierarchically Structured AOPAN@Mg(OH)2 Composite Nanofibrous Membrane and Cr(Ⅵ)-removal Capacity†
ZHANG Fan,WANG Bin,WANG Jiaona,LI Xiuyan,LI Congju. Preparation of Hierarchically Structured AOPAN@Mg(OH)2 Composite Nanofibrous Membrane and Cr(Ⅵ)-removal Capacity†[J]. Chemical Research In Chinese Universities, 2016, 37(11): 2117-2124. DOI: 10.7503/cjcu20160217
Authors:ZHANG Fan  WANG Bin  WANG Jiaona  LI Xiuyan  LI Congju
Affiliation:1. College of Material Science and Engineering, Beijing Institute of Fashion Technnology,2. Beijing Key Laboratory of Clothing Materials R&D and Assessment, Beijing 100029, China
Abstract:The hierarchial aminated polyacrylonitrile(AOPAN)@Mg(OH)2 composite nanofibrous membrane was obtained by electrospinning technique and surface modification with hydroxylamine chloride prior to hydrothermal method. The composite nanofibrous membranes were characterized by Fourier transform infrared spectroscopy(FTIR), scanning electron microscopy(SEM), X-ray diffraction(XRD) and transmission electron microscope(TEM) to confirm the formation of Mg(OH)2 nanoparticles on the AOPAN nanofibers. The results revealed that 40 ℃/7 h was the best hydrothermal condition and Mg(OH)2 nanoparticles were effectively loaded on the surface of AOPAN nanofibrous membrane. The adsorption process showed pH dependence and the maximum Cr(Ⅵ) adsorption occurred at pH=2. The Langmuir adsorption model described well the experimental adsorption data and estimated a maximum loading capacity of 123.5 mg/g. This is mainly due to the protonation of —NH2 groups and Mg(OH)2 nanoparticles under the acid condition, which is benefit for adsorbing HCrO4-. The kinetics studies indicated that the adsorption equilibrium was attained after 5 h and the experimental data followed the pseudo-second order model. Meanwhile, the AOPAN@Mg(OH)2 composite nanofibrous membrane can be easily separated from liquid solutions and shows excellent cyclic utilization performance. The composite membrane maintained over 50% removal rate after rinsing with dilute NaOH solution by four cycles. Therefore, the AOPAN@Mg(OH)2 composite nanofibrous membrane could be a good candidate for removing Cr(Ⅵ) from wastewater, and the study provides a simple and effective route for the development of new environmental remediation nanomaterials.
Keywords:Electrospinning  Composite nanofibrous membrane  Hierarchical structure  Hexavalent chromium  Polyacrylonitrile
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