连续静电驻极纳米纤维基空气滤材开发

刘延波; 王强; 郝铭; 胡晓东; 杨波

doi:10.14028/j.cnki.1003-3726.2024.23.387

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连续静电驻极纳米纤维基空气滤材开发

研究论文 | 更新时间：2024-05-23

- 连续静电驻极纳米纤维基空气滤材开发
- Development of Nanofibrous Membrane with Continuous Electret Treatment for Air Filtration
- 高分子通报 2024年37卷第6期页码：792-801
- 作者机构：
  
  1..武汉纺织大学纺织科学与工程学院，省部共建纺织新材料与先进加工技术国家重点实验室，武汉　 430200
  2..天津工业大学纺织科学与工程学院，天津　 300387
- 作者简介：
  
  *杨波，E-mail: ybo@wtu.edu.cn
- 基金信息：
  
  国家自然科学基金(51973168);“武汉英才”湖北省武汉市高层次人才项目(武财行[2022]734)
- DOI：10.14028/j.cnki.1003-3726.2024.23.387
  中图分类号：
- 纸质出版日期：2024-06，
  
  收稿日期：2023-11-17，
  
  录用日期：2023-12-21
- 稿件说明：
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刘延波, 王强, 郝铭, 胡晓东, 杨波. 连续静电驻极纳米纤维基空气滤材开发. 高分子通报, 2024, 37(6), 792–801

Liu, Y. B.; Wang, Q.; Hao, M.; Hu, X. D.; Yang, B. Development of nanofibrous membrane with continuous electret treatment for air filtration. Polym. Bull. (in Chinese), 2024, 37(6), 792–801
刘延波, 王强, 郝铭, 胡晓东, 杨波. 连续静电驻极纳米纤维基空气滤材开发. 高分子通报, 2024, 37(6), 792–801 DOI： 10.14028/j.cnki.1003-3726.2024.23.387.

Liu, Y. B.; Wang, Q.; Hao, M.; Hu, X. D.; Yang, B. Development of nanofibrous membrane with continuous electret treatment for air filtration. Polym. Bull. (in Chinese), 2024, 37(6), 792–801 DOI： 10.14028/j.cnki.1003-3726.2024.23.387.

摘要

Abstract

关键词

驻极处理无机掺杂空气过滤纳米纤维膜

Keywords

Electret treatmentInorganic dopingAir filtrationNanofibrous membrane

references

高阳, 蔡志江. 静电纺丝纳米纤维在过滤材料中的应用研究进展. 高分子通报, 2013, (12), 15–20.

Yi, B.; Zhao, Y. T.; Tian, E. L.; Li, J.; Ren, Y. W.High-performance polyimide nanofiber membranes prepared by electrospinning. High Perform. Polym., 2019, 31(4), 438–448.

Brown, T. D.; Dalton, P. D.; Hutmacher, D. W.Melt electrospinning today: an opportune time for an emerging polymer process. Prog. Polym. Sci., 2016, 56, 116–166.

Zhou, C. P.; Zou, D.; Kang, Y. T.; Feng, S. S.; Zhong, Z. X.; Xing, W. H.Novel interface enhancement strategy enables SiC fiber membrane for high-temperature gas/solid filtration. J. Membr. Sci., 2023, 685, 121918.

Zou, D.; Zhou, C. P.; Gong, Y. M.; Zhong, Z. X.; Xing, W. H.Efficient construction of tubular mullite fiber membrane filter with high gas permeance for gas/solid filtration. Sep. Purif. Technol., 2023, 311, 123258.

Lu, J. Q.; Cao, M. L.; He, X. W.; Hu, Y.; Bai, L.; Huan, S. Q.; Han, G. P.; Cheng, W. L.Electrospun hierarchically channeled polyacrylonitrile nanofibrous membrane for wastewater recovery. J. Clean. Prod., 2022, 361, 132167.

Lou, L. H.; Qin, X. H.; Zhang, H. N.Preparation and study of low-resistance polyacrylonitrile nano membranes for gas filtration. Text. Res. J., 2017, 87(2), 208–215.

Zhou, Y. J.; Liu, Y. N.; Zhang, M. X.; Feng, Z. B.; Yu, D. G.; Wang, K.Electrospun nanofiber membranes for air filtration: a review. Nanomaterials, 2022, 12(7), 1077.

Mahmoodi, N. M.; Mokhtari-Shourijeh, Z.; Langari, S.; Naeimi, A.; Hayati, B.; Jalili, M.; Seifpanahi-Shabani, K.; Silica aerogel/polyacrylonitrile/polyvinylidene fluoride nanofiber and its ability for treatment of colored wastewater. J. Mol. Struct., 2021, 1227, 129418.

Hu, M.; Yin, L. H.; Low, N.; Ji, D. H.; Liu, Y. S.; Yao, J. F.; Zhong, Z. X.; Xing, W. H.Zeolitic-imidazolate-framework filled hierarchical porous nanofiber membrane for air cleaning. J. Membr. Sci., 2020, 594, 117467.

Ma, M. Y.; Wang, C. J.; Dong, S. X.; Wu, C. D.; Feng, Z. Y.; Wang, M. Z.; Luo, H. B.The performance evaluation of pleated electret filters enhanced by electrostatic enhanced method. Phys. Scr., 2023, 98(4), 045003.

Zhou, H. X.; Zeng, Y. Q.; Low, Z.; Zhang, F.; Zhong, Z. X.; Xing, W. H.Core-dual-shell structure MnO2@Co-C@SiO2 nanofiber membrane for efficient indoor air cleaning. J. Membr. Sci., 2023, 677, 121644.

Chen, J.; Yu, B. Y.; Zhu, J.; Gao, Y. F.; Deng, W. W.; Chen, R. X.; Wang, H. L.Electrospinning of biodegradable, monolithic membrane with distinct bimodal micron-sized fibers and nanofibers for high efficiency PMs removal. ACS Appl. Mater. Interfaces, 2023, 15(29), 35507–35515.

Wang, D.; Zang, J. J.; Wang, Q. X.; Cheng, W. L.; Han, G. P.; Huan, S. Q.Hierarchical composite membrane with multiscale roughness structures for water-in-oil emulsion separation. Appl. Surf. Sci., 2021, 566, 150666.

Li, X.; Wang, X. X.; Yue, T. T.; Xu, Y.; Zhao, M. L.; Yu, M.; Ramakrishna, S.; Long, Y. Z.Waterproof-breathable PTFE nano- and microfiber membrane as high efficiency PM2.5 filter. Polymers, 2019, 11(4), 590.

Zhang, J. Y.; Fang, W. X.; Zhang, F.; Gao, S. J.; Guo, Y. L.; Li, J.; Zhu, Y. Z.; Zhang, Y. T.; Jin, J.Ultrathin microporous membrane with high oil intrusion pressure for effective oil/water separation. J. Membrane. Sci., 2020, 608, 118201.

Nirmala, R. ; Jeong, J. W. ; Navamathavan, R. ; Kim, H. Y.Synthesis and electrical properties of TiO2 nanoparticles embedded in polyamide-6 nanofibers via electrospinning. Nano-Micro. Lett., 2011, 3(1), 56–61.

Passos, de. Oliveira. Santos. R.;Hao, J.; Santos, R. P. D.; Hao, J. L.; Innocentini. M. M. D.; Frollini, E.; Junior. H. S.; Rutledge, G. C.Composite electrospun membranes based on polyacrylonitrile and cellulose nanofibrils: relevant properties for their use as active filter layers. Sep. Purif. Technol., 2023, 311, 123358.

姚金波, 刘垚, 田文军, 刘延波. 静电驻极PVDF-TiO2/Si3N4纳米纤维膜的制备及其空气过滤性能. 天津工业大学学报, 2022, 41(2), 20–24.

Zhang, H. N.; Xie, Y. X.; Song, Y.; Qin, X. H.Preparation of high-temperature resistant poly(m-phenylene isophthalamide)/polyacrylonitrile composite nanofibers membrane for air filtration. Colloids Surf. A Physicochem. Eng. Aspects, 2021, 624, 126831.

Yu, Y. X.; Ma, Q. Y.; Zhang, J. B.; Liu, G. B.Electrospun SiO2 aerogel/polyacrylonitrile composited nanofibers with enhanced adsorption performance of volatile organic compounds. Appl. Surf. Sci., 2020, 512, 145697.

Zainab, G.; Babar, A. A.; Ali, N.; Aboalhassan, A. A.; Wang, X. F.; Yu, J. Y.; Ding, B.Electrospun carbon nanofibers with multi-aperture/opening porous hierarchical structure for efficient CO2 adsorption. J. Colloid Interface Sci., 2020, 561, 659–667.

Zhu, X.; Feng, S. S.; Rao, Y. Y.; Ju, S. G.; Zhong, Z. X.; Xing, W. H.A novel semi-dry method for rapidly synthesis ZnO nanorods on SiO2@PTFE nanofiber membrane for efficient air cleaning. J. Membr. Sci., 2022, 645, 120206.

Chen, M. Y.; Jiang, J. Y.; Feng, S. S.; Low, Z. X.; Zhong, Z. X.; Xing, W. H.Graphene oxide functionalized polyvinylidene fluoride nanofibrous membranes for efficient particulate matter removal. J. Membr. Sci., 2021, 635, 119463.

Ali, N.; Babar, A. A.; Zhang, Y. F.; Iqbal, N.; Wang, X. F.; Yu, J. Y.; Ding, B.Porous, flexible, and core-shell structured carbon nanofibers hybridized by tin oxide nanoparticles for efficient carbon dioxide capture. J. Colloid Interface Sci., 2020, 560, 379–387.

Yuan, Z. F.; Lu, M.; Peng, X.; Xu, B. S.; Shi, Y. T.; Zhao, H. X.Performance and purification mechanism of the mullite/SiC composite filter tube membrane. Process. Appl. Ceram., 2023, 17(1), 61–69.

Yang, X.; Pu, Y.; Zhang, Y. F.; Liu, X. F.; Li, J. X.; Yuan, D.; Ning, X.Multifunctional composite membrane based on BaTiO3@PU/PSA nanofibers for high-efficiency PM2.5 removal. J. Hazard. Mater., 2020, 391, 122254.

徐安厚, 郭杰, 赵孔银, 张新新. CaAlg/CMWCNT复合水凝胶纳滤膜的制备及染料截留. 功能材料, 2016, 47(6), 6181–6184.

Zhu, Q. Y.; Tang, X.; Feng, S. S.; Zhong, Z. X.; Yao, J. F.; Yao, Z.ZIF-8@SiO2 composite nanofiber membrane with bioinspired spider web-like structure for efficient air pollution control. J. Membr. Sci., 2019, 581, 252–261.

张兴亚. 气体流量对口罩颗粒及细菌过滤性能影响探究. 轻纺工业与技术, 2020, 49(10), 6–8.

高慧. 聚乳酸熔喷空气过滤材料的水驻极工艺优化与驻极体性能研究. 上海: 东华大学, 2023.

Opálková Šišková, A.; Frajová, J.; Nosko, M.Recycling of poly(ethylene terephthalate) by electrospinning to enhanced the filtration efficiency. Mater. Lett., 2020, 278, 128426.

Ali, N.; Hussain, T.; Wang, X.; Yu, J.; Ding, B. Nickle oxide nanoparticles incorporated flexible and porous carbon nanofiber-based adsorbents for CO2 capture. Compos. Commun., 2023, 40, 101604.

Wang, L.; Cui, L. Y.; Liu, Y. S.; Riedel, J.; Qian, X. M.; Liu, Y. Electrospun polyimide nanofiber-coated polyimide nonwoven fabric for hot gas filtration. Adsorpt. Sci. Technol., 2018, 36(9-10), 1734-43.

Xie, F.; Wang, Y.; Zhuo, L.; Jia, F.; Ning, D.; Lu, Z. Electrospun wrinkled porous polyimide nanofiber-based filter via thermally induced phase separation for efficient high-temperature PMs capture. ACS. Appl. Mater. Interfaces., 2020, 12(50), 56499-508.

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