离心纺丝及其制备的纳米纤维的应用 Текст научной статьи по специальности «Нанотехнологии»

II. Технологии,

материаловедение, энергоэффективность

For citation: Chen Long, Wan Jitao, Wu Xichun, Mei Shunqi. Centrifugal spinning and the application of nanofibers prepared therefrom //

URL: http://rectors.altstu.ru/ru/periodical/archiv/2022/2/articles/2_1.pdf EDN: https://elibrary.ru/jyohzy

UDK 677.022

Centrifugal spinning and the application

A

of nanofibers prepared therefrom

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51175385; 2019AEE011. The research work of this paper has been funded by the National Natural Science Foundation of China and the Hubei Provincial Science and Technology Plan: the funded projects are: 51175385; 2019AEE011.

@ References

[1] Zhang Z M, Duan Y S, Xu Q, et al. A review on nanofiber fabrication with the effect of highspeed centrifugal force field [J]. Journal of Engineered Fibers and Fabrics, 2019, 14: 1558925019867517.

[2] Lu Y, Li Y, Zhang S, et al. Parameter study and characterization for polyacrylonitrile nanofibers fabricated via centrifugal spinning process [J]. European Polymer Journal, 2013, 49(12): 38343845.

[3] Hooper JP. Centrifugal spinneret [P]. US Patent, 1500931, 1924.

[4] Xiangwu, Zhang, Yao, et al. Centrifugal Spinning: An Alternative Approach to Fabricate Nanofibers at High Speed and Low Cost [J]. Polymer Reviews, 2014, 54(4):677-701.

[5] Keuchel H W. Method and apparatus for providing centrifugal fiber spinning coupled with extrusion [J]. EP0168817, 1986.

[6] Padron S, Fuentes A, Caruntu D, et al. Experimental study of nanofiber production through forcespinning[J]. Journal of applied physics, 2013, 113(2): 024318.

[7] Riahi D N. Rotating Fiber Jets during Forcespinning with Aerodynamic Effect [J]. Journal of Engineering Mechanics, 2018, 144(8): 04018069.

[8] Yanilmaz M, Lu Y, Li Y, et al. SiO2/polyacrylonitrile membranes via centrifugal spinning as a separator for Li-ion batteries [J]. Journal of Power Sources, 2015, 273: 1114-1119.

[9] Lu Y, Fu K, Zhang S, et al. Centrifugal spinning: A novel approach to fabricate porous carbon fibers as binder-free electrodes for electric double-layer capacitors [J]. Journal of Power Sources, 2015, 273: 502-510.

[10] Shen Y, Yang F, Lu W, et al. A highly stretchable and breathable polyurethane fibrous membrane sensor for human motion monitoring and voice signal recognition [J]. Sensors and Actuators A: Physical, 2021, 331: 112974.

[11] Luo W, Mei S, Liu T, et al. Preparation and tensile conductivity of carbon nanotube/polyurethane nanofiber conductive films based on the centrifugal spinning method [J]. Nanotechnology, 2022, 33(13): 135708.

[12] Chang H, Liu Q, Zimmerman J F, et al. Recreating the heart's helical structure-function relationship with focused rotary jet spinning [J]. Science, 2022, 377(6602): 180-185.

[13] Li Z, Mei S, Dong Y, et al. Oxidized Chitosan-Tobramycin (OCS-TOB) Submicro-Fibers for Biomedical Applications [J]. Pharmaceutics, 2022, 14(6): 1197.

[14] Arican F, Uzuner-Demir A, Polat O, et al. Fabrication of gelatin nanofiber webs via centrifugal spinning for N95 respiratory filters [J]. Bulletin of Materials Science, 2022, 45(2): 1-8.

[15] Wang A, Li X, Hou T, et al. High efficiency, low resistance and high temperature resistance PTFE porous fibrous membrane for air filtration [J]. Materials Letters, 2021, 295: 129831.