Bubble Electrospinning: Patents, Promises and Challenges

Author(s): Ji-Huan He, Yan-Ping Liu

Journal Name: Recent Patents on Nanotechnology

Volume 14 , Issue 1 , 2020

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[1]
He JH. Advances in bubble electrospinning. Recent Pat on Nanotechnol 2019; 13(3): 162-3.
[http://dx.doi.org/10.2174/187221051303191224144806]
[2]
Liu GL, Zhang YM, Tian D, et al. Last patents on bubble electrospinning. Recent Pat on Nanotechnol 2019. Epub ahead of print
[http://dx.doi.org/10.2174/1872210513666191107123446]
[3]
Yang ZP, Dou F, Yu T, et al. On the cross-section of shaped fibers in the dry spinning process: Physical explanation by the geometric potential theory. Results in Physics 2019; 14 102347
[http://dx.doi.org/10.1016/j.rinp.2019.102347]
[4]
Yang ZP. Filtration efficiency of a cigarette filter with X-or Y-shaped fibers. Therm Sci 2019; 23(4): 2517-22.
[http://dx.doi.org/10.2298/TSCI1904517Y]
[5]
Li XX, He JH. Nanoscale adhesion and attachment oscillation under the geometric potential. Part 1: The formation mechanism of nanofiber membrane in the electrospinning. Results in Physics 2019; 12: 1405-10.
[http://dx.doi.org/10.1016/j.rinp.2019.01.043]
[6]
Li XX, Li YY, Li Y, et al. Gecko-like adhesion in the electrospinning process. Results in Physics 2020; 16 102899
[http://dx.doi.org/10.1016/j.rinp.2019.102899]
[7]
Zhou CJ, Chen C, Zhou HY, et al. Fabrication of latex-based nanofibers by electrospinning. Recent Pat on Nanotechnol 2019; 13(3): 202-5.
[http://dx.doi.org/10.2174/1872210513666190925160735]
[8]
Yu DN, Tian D, Zhou CJ, et al. Wetting and supercontraction properties of spider-based nanofibers. Therm Sci 2019; 23(4): 2189-93.
[http://dx.doi.org/10.2298/TSCI1904189Y]
[9]
Tian D, Zhou CJ, He JH. Sea-silk based nanofibers and their diameter prediction. Therm Sci 2019; 23(4): 2253-6.
[http://dx.doi.org/10.2298/TSCI1904253T]
[10]
Li XX, Yang CF, He JH. Thermal property of rock powder-based nanofibers for high temperature filtration and adsorption. Therm Sci 2019; 23(4): 2501-7.
[http://dx.doi.org/10.2298/TSCI1904501L]
[11]
Zhou CJ, Li Y, Yao SW, et al. Silkworm-based silk fibers by electrospinning. Res Phy 2019; 15 102646
[http://dx.doi.org/10.1016/j.rinp.2019.102646]
[12]
He CH, Shen Y, JI FY, et al. Taylor series solution for fractal Bratu-type equation arising in electrospinning process. Fractals 2020; 28(1) 2050011
[http://dx.doi.org/10.1142/S0218348X20500115]
[13]
JI FY, He CH, Zhang JJ, et al. A fractal Boussinesq equation for nonlinear transverse vibration of a nanofiber-reinforced concrete pillar. Appl Math Model 2020; 82: 437-48.
[http://dx.doi.org/10.1016/j.apm.2020.01.027]
[14]
He JH. A simple approach to one-dimensional convection-diffusion equation and its fractional modification for E reaction arising in rotating disk electrodes. J Electroanal Chem 2019; 854 113565
[http://dx.doi.org/10.1016/j.jelechem.2019.113565]
[15]
Liu P, He JH. Geometric potential: an explanation on of nanofibers wettability. Therm Sci 2018; 22(1A): 33-8.
[http://dx.doi.org/10.2298/TSCI160706146L]
[16]
Zhou CJ, Tian D, He JH. What factors affect lotus effect? Therm Sci 2018; 22(4): 1737-43.
[http://dx.doi.org/10.2298/TSCI1804737Z]
[17]
Wang XX, Xu L, Liu GL, et al. Smart adhesion by surface treatment: Experimental and theoretical insights. Therm Sci 2019; 23: 2355-63.
[http://dx.doi.org/10.2298/TSCI1904355W]
[18]
He JH, Ji FY. Two-scale mathematics and fractional calculus for thermodynamics. Therm Sci 2019; 23(4): 2131-3.
[http://dx.doi.org/10.2298/TSCI1904131H]
[19]
He JH, Ain QT. New promises and future challenges of fractal calculus: from two-scale Thermodynamics to fractal variational principle. Therm Sci 2020.
[http://dx.doi.org/10.2298/TSCI200127065H]
[20]
He JH. A short review on analytical methods for to a fully fourth-order nonlinear integral boundary value problem with fractal derivatives. Int J Numer Method H 2020.
[http://dx.doi.org/10.1108/HFF-01-2020-0060]


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Article Details

VOLUME: 14
ISSUE: 1
Year: 2020
Page: [3 - 4]
Pages: 2
DOI: 10.2174/187221051401200309105303

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