中国科学院机构知识库网格系统: Electrically conductive polyaniline/polyimide microfiber membrane prepared via a combination of solution blowing and subsequent in situ polymerization growth

Electrically conductive polyaniline/polyimide microfiber membrane prepared via a combination of solution blowing and subsequent in situ polymerization growth

文献类型：期刊论文


作者	Wang, Ning 1; Chen, Yang 1; Ren, Jianyu 1; Huang, Xiongyi2 ; Chen, Xueyan 1; Li, Guodong 1; Liu, Dongqin 3
刊名	JOURNAL OF POLYMER RESEARCH
出版日期	2017-02-25
卷号	24 期号:3 页码:1-11
关键词	Polyaniline Polyimide Microfiber Membrane Solution Blowing Hexavalent Chromium
DOI	10.1007/s10965-017-1198-3
文献子类	Article
英文摘要	Dodecylbenzene sulfonic acid (DBSA) dopedpolyaniline (PANI) coated conductive polyimide (PI) microfiber membrane was prepared by chemical oxidation polymerization. PI nanofiber membrane was prepared by solution blowing. Fourier transform infrared spectra (FTIR), X-ray photoelectron spectroscopy (XPS) and scanning electron microscope (SEM) proved that the successful preparation of composite microfiber membrane with core-shell structures. At the same time, the PANI had an effect of protection on PI nanofiber, which was detected by thermal gravimetric analysis (TGA). The orthogonal experiments were designed to determine the optimal reaction conditions for the conductivity of PANI/PI microfiber membranes as following: ANI concentration (0.15 mol L-1), APS concentration (0.1 mol L-1) and DBSA concentration (0.3 mol L-1). The conductivity of PANI/PI microfiber membranes could arrive to 3.83 x 10(-2) S cm(-1). Moreover, the PANI/PI microfiber membranes had a superior hexavalent chromium (Cr (VI)) adsorption performance. The factors affecting the performance of hexavalent chromium (Cr (VI)) removal from the aqueous solutions were investigated.
WOS关键词	HEXAVALENT CHROMIUM REMOVAL ; CR(VI) REMOVAL ; FIBER ; NANOFIBERS ; NANOCOMPOSITES ; PERFORMANCE ; COPPER(II) ; ADSORPTION ; CELLULOSE
WOS研究方向	Polymer Science
语种	英语
WOS记录号	WOS:000397706200001
资助机构	Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; 201402011) ; 201402011) ; 201402011) ; 201402011) ; 201402011) ; 201402011) ; 201402011) ; 201402011) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; Science Fund of Aviation(201329Q2001) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; National Natural Science Fund of China(21206123) ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Postdoctoral Program projects(2014 M551026 ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; Tianjin Municipal Applied Basic Research and Frontier Technology Research Programs(13JCQNJC02300) ; 201402011) ; 201402011) ; 201402011) ; 201402011) ; 201402011) ; 201402011) ; 201402011) ; 201402011)
源URL	[http://ir.hfcas.ac.cn:8080/handle/334002/31781]
专题	合肥物质科学研究院_中科院等离子体物理研究所
作者单位	1.Tianjin Polytech Univ, Sch Mat Sci & Engn, Tianjin Municipal Key Lab Fiber Modificat & Funct, Tianjin 300389, Peoples R China 2.Chinese Acad Sci, Inst Plasma Phys, Hefei 230031, Anhui, Peoples R China 3.Xinxiang Bailu Investment Grp Co Ltd, Xinxiang 453011, Henan, Peoples R China
推荐引用方式 GB/T 7714	Wang, Ning,Chen, Yang,Ren, Jianyu,et al. Electrically conductive polyaniline/polyimide microfiber membrane prepared via a combination of solution blowing and subsequent in situ polymerization growth[J]. JOURNAL OF POLYMER RESEARCH,2017,24(3):1-11.
APA	Wang, Ning.,Chen, Yang.,Ren, Jianyu.,Huang, Xiongyi.,Chen, Xueyan.,...&Liu, Dongqin.(2017).Electrically conductive polyaniline/polyimide microfiber membrane prepared via a combination of solution blowing and subsequent in situ polymerization growth.JOURNAL OF POLYMER RESEARCH,24(3),1-11.
MLA	Wang, Ning,et al."Electrically conductive polyaniline/polyimide microfiber membrane prepared via a combination of solution blowing and subsequent in situ polymerization growth".JOURNAL OF POLYMER RESEARCH 24.3(2017):1-11.

入库方式： OAI收割

来源：合肥物质科学研究院

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Electrically conductive polyaniline/polyimide microfiber membrane prepared via a combination of solution blowing and subsequent in situ polymerization growth

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