Two Dimensional Nano-Net by Bubble Electrospinning

Hong Yan Liu; Hao Dou; Zhong Fu Ren

doi:10.4028/www.scientific.net/AMR.843.34

Paper Titles

Vibration and Heat Effect on Electrospinning Modeling
p.9

Hierarchical Motion of Charged Jets in Electrospinning and Nanofibers with Minimal Diameter of about 5nm
p.14

High Orientation Ordered Nanofibers Fabricated by Electrospinning
p.21

Multi-Bubble Electrospinning of Nanofibers
p.26

Two Dimensional Nano-Net by Bubble Electrospinning
p.34

Frequency of Bubble Formation in Modified Bubble Electrospinning
p.40

Edible Starch for Fabrication of Nanoparticles by Electrospinning
p.49

Web-Like Nanofibers for Improving Fibroblast Growth
p.53

Antibacterial Activity of Polyester Fabric Treated with Nano-TiO₂ via One-Bath Process
p.58

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 843Two Dimensional Nano-Net by Bubble Electrospinning

Two Dimensional Nano-Net by Bubble Electrospinning

Abstract:

Two dimensional NanoNet is obtained by the bubble electrospinning, its mechanism is elucidated and experimental verification is given. Combined fibers in the NanoNet might be simple combination of two separate fibers, or it is a daughter cascade caused in hierarchical motion of a charged jet. A criterion is given to identify simple combination and daughter cascades by using area conservation, mass conservation and moment conservation. Experiment verification of these criterions is given.

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Periodical:

Advanced Materials Research (Volume 843)

Pages:

34-39

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.843.34

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Online since:

November 2013

Authors:

Hong Yan Liu, Hao Dou, Zhong Fu Ren

Keywords:

Bubble Electrospinning, COULOMB Force, Daughter Cascade, Surface Charge, Two Dimensional Nanoweb

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References

[1] Y. Liu, J.H. He, J.Y. Yu, et al. Chinese patent 200710036447.4

Google Scholar

[2] J.H. He, Q .Yang, D.H. Shou. Chinese patent 200820058415.4

Google Scholar

[3] Y. Liu, J.H. He. Bubble electrospinning for mass production of nanofibers, Int. J. Nonlin. Sci. Num. 8 (2007) 393-396.

Google Scholar

[4] J.H. He, Y. Liu, L. Xu, J.Y. Yu, G. Sun, BioMimic fabrication of electrospun nanofibers with high-throughput, Chaos Soliton. Fract. 37 (2008) 643-651.

DOI: 10.1016/j.chaos.2007.11.028

Google Scholar

[5] Y. Liu, J.H. He, L. Xu, J.Y.Yu, The principle of bubble electrospinning and its experimental verification J. Polym. Eng. 28 (2008) 55-65.

Google Scholar

[6] J.H. He, Y. Liu, L.F. Mo, Y.Q. Wan, L. Xu, Electrospun Nanofibres and Their Applications (ISBN: 978 1847 35145 6), Smithers Rapra Technology, Shawbury, UK, 2008.

Google Scholar

[7] J.H. He, An elementary introduction to recently developed asymptotic methods and nanomechanics in textile engineering, Int. J. Mod. Phys. 22 ( 2008) 3487-3578.

DOI: 10.1142/s0217979208048668

Google Scholar

[8] K. Saeed, S.Y. Park, Multiwalled-carbon Nanotubes/Poly (butylene terephthalate) Nanofibres: Morphological, Mechanical and Thermal Properties, Iranian Polymer Journal. 20(10) (2011)795-801.

Google Scholar

[9] J. He, N. Guo, S. Cui, Structure and Mechanical Properties of Electrospun Tussah Silk Fibroin Nanofibres: Variations in Processing Parameters, Iranian Polymer Journal. 20 (9) (2011) 713-724.

Google Scholar

[10] H. Wang, W. Wang, S. Jiang, et al. Poly(vinyl alcohol)/Oxidized Starch Fibres via Electrospinning Technique: Fabrication and Characterization, Iranian Polymer Journal. 20(7) (2011) 551-558.

Google Scholar

[11] Q. Zhuo, G. Xu, J. Wang, et al. Poly(vinyl alcohol)/Hydrotalcite Composite Nanofibre: Preparation and Characterization, Iranian Polymer Journal. 20(5) (2011)357-365.

Google Scholar

[12] W. Zhou, J. He, S. Du, et al. Electrospun Silk Fibroin/Cellulose Acetate Blend Nanofibres: Structure and Properties, Iranian Polymer Journal. 20(5) (2011) 389-397 .

Google Scholar