Computer Simulation of PAN/PVP Blends Compatibility and Preparation of Aligned PAN Porous Nanofibers via Magnetic-Field-Assisted Electrospinning PAN/PVP Blends

Linyu MEI; Xigang WANG; Yaqing LIU; Junyuan WANG

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Computer Simulation of PAN/PVP Blends Compatibility and Preparation of Aligned PAN Porous Nanofibers via Magnetic-Field-Assisted Electrospinning PAN/PVP Blends

机译：PAN / PVP共混物相容性的计算机模拟和通过磁场辅助电纺PAN / PVP共混物制备取向PAN多孔纳米纤维

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Binary blend compatibility of polyacrylonitrile (PAN) and polyvinylpyrrolidone (PVP) was computationally simulated at both molecular and mesoscopic levels in order to provide theoretical support for preparing PAN porous nanofibers from PAN/PVP blends. In molecular simulation, Flory-Huggins interaction parameters were calculated to estimate the blend compatibility, in which PAN and PVP were found to be immiscible. This had been further validated by the mesoscopic simulation in terms of the free energy density，the order parameters, and the mesoscopic morphology. Aligned PAN porous nanofibers were prepared by selectively removing PVP from the PAN/PVP blend nanofibers which was prepared by Magnetic-field-assisted electrospinning (MFAES).

机译：聚丙烯和聚乙烯吡咯烷酮（PVP）的二元共混物相容性在分子和介观水平上都进行了计算模拟，从而为从PAN / PVP共混物制备PAN多孔纳米纤维提供理论支持。在分子模拟中，计算了Flory-Huggins相互作用参数以估计共混物的相容性，其中发现PAN和PVP不相容。通过介观模拟在自由能密度，有序参数和介观形态方面进一步证实了这一点。取向的PAN多孔纳米纤维是通过从PAN / PVP共混纳米纤维中选择性去除PVP制备的，PAN / PVP共混纳米纤维是通过磁场辅助静电纺丝（MFAES）制备的。

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《Materials Science》 |2019年第1期|共6页
作者
Linyu MEI; Xigang WANG; Yaqing LIU; Junyuan WANG;
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中图分类工程材料学;
关键词
computer simulationcompatibilityelectrospinningaligned porous nanofibersPAN;

机译：计算机模拟相容性电纺丝排列的多孔纳米纤维;

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专利

1. Electrospinning preparation and properties of Tb (TTA)(3)(TPPO)(2)/PANI/PVP electrical-luminescence bifunctional nanofibers [J] . Shi Qisong, Zhao Yuxuan, Hu Bin, Materials Letters . 2017,第deca1期

机译：Tb（TTA）（3）（TPPO）（2）/ PANI / PVP电致发光双功能纳米纤维的电纺丝制备及其性能
2. Highly aligned magnetic composite nanofibers fabricated by magnetic-field-assisted electrospinning PAN/FeCo solution [J] . Mei Linyu, Chen Huiyu, Shao Yunpeng, High performance polymers . 2019,第2期

机译：由磁场辅助电纺丝盘/ FECO溶液制造的高度对准的磁性复合纳米纤维
3. Supercapacitor performance of porous carbon nanofiber composites prepared by electrospinning polymethylhydrosiloxane (PMHS)/polyacrylonitrile (PAN) blend solutions [J] . Bo-Hye Kim, Kap Seung Yang, Hee-Gweon Woo Synthetic Metals . 2011,第13a14期

机译：通过静电纺丝聚甲基氢硅氧烷（PMHS）/聚丙烯腈（PAN）混合溶液制备的多孔碳纳米纤维复合材料的超级电容器性能
4. SUPERCAPACITOR PERFORMANCE OF POROUS CARBON NANOFIBER COMPOSITES PREPARED BY ELECTROSPINNING POLYMETHYLHYDRO- SILOXANE (PMHS)/POLYACRYLONrrRILE (PAN) BLEND SOLUTIONS [C] . Bo-Hye Kim, Kap Seung Yang Annual World Conference on Carbon . 2011

机译：通过静态散甲基羟基硅氧烷（PMHS）/聚丙烯克隆（PAN）共混溶液制备多孔碳纳米河复合材料的超级电容器性能
5. Phase morphology control in electrospun nanofibers from the electrospinning of polymer blends. [D] . Wei, Ming. 2005

机译：通过电纺聚合物共混物来控制电纺纳米纤维的相形态。
6. Preparation of Aligned Ultra-long and Diameter-controlled Silicon Oxide Nanotubes by Plasma Enhanced Chemical Vapor Deposition Using Electrospun PVP Nanofiber Template [O] . Ming Zhou, Jinyuan Zhou, Ruishan Li, 2010

机译：使用电纺PVP纳米纤维模板的等离子体增强化学气相沉积法制备对准的超长和可控直径的氧化硅纳米管
7. Preparation of PVP/PLLA Ultrafine Blend Fibers by Electrospinning [O] . Wensheng Yu, Guixia Liu, Xiangting Dong, 2011

机译：电纺丝法制备PVP / PLLA超细混纺纤维

Computer Simulation of PAN/PVP Blends Compatibility and Preparation of Aligned PAN Porous Nanofibers via Magnetic-Field-Assisted Electrospinning PAN/PVP Blends

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