A Critical Analysis On Parameters Affecting The Formation of Nano Fibers Using Electrospinning Technique
International Journal of Engineering Trends and Technology (IJETT) | |
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© 2021 by IJETT Journal | ||
Volume-69 Issue-1 |
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Year of Publication : 2021 | ||
Authors : Gurpreet |
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DOI : 10.14445/22315381/IJETT-V69I1P220 |
Citation
MLA Style: Gurpreet. "A Critical Analysis On Parameters Affecting The Formation of Nano Fibers Using Electrospinning Technique" International Journal of Engineering Trends and Technology 69.1(2021):126-131.
APA Style:Gurpreet. A Critical Analysis On Parameters Affecting The Formation of Nano Fibers Using Electrospinning Technique International Journal of Engineering Trends and Technology, 69(1), 126-131.
Abstract
The ongoing improvements in innovation are to plan and make compact size gadgets with increment in productivity, less energy utilization, and viability. Manufacturing nanofibers of various polymer solutions and their expanding use in a wide scope of uses is coordinating towards this. Out of nanofibers` various manufacturing techniques; Electro-spinning is a basic, more beneficial, and ease technique. Nanofibers created by the Electro-spinning process are generally utilized in filtration, creating high conductivity materials, in medication conveyance, malignancy treatment, and so forth where explicit attributes are required. For development in these zones, nanofibers must be appropriately intended for these applications to forestall disappointment. Electrospinning is a process by which polymer nanofibers (with breadth lower than 100nm and stretches up to km) can be made utilizing an electrostatically determined stream of the polymer solution. Here the impacts of both polymer solution parameters (for example, polymer solution concentration, solution stream rate, the distance between collector and needle tip) and electrospinning process conditions (applied voltage, temperature, and humidity) on the size & morphology of nanofibers are contemplated. The goal is to consider the impacts of parameters and produce nanofibers of least breadth and imperfection free morphology by controlling the input parameters.
Reference
[1] N. Bhardwaj and S. C. Kundu., Electrospinning : A fascinating fiber fabrication technique," 28(2010) 325–347.
[2] D. D. Pise, B. B. Ahuja, and S. M. Shendokar, "Study of Process Parameters Affecting the Diameter and Morphology of Electrospun Polyvinylidene Fluoride ( PVDF ) Nanofibers," vol. 4(6)(2015) 155–160.
[3] J. Pelipenko, J. Kristl, B. Jankovi, and P. Kocbek.,The impact of relative humidity during electrospinning on the morphology and mechanical properties of nanofibers,456(2013) 125–134.
[4] P. W. Æ. K. De Clerck.,The effect of temperature and humidity on electrospinning., (2009) 1357–1362.
[5] S. A. Theron, E. Zussman, and A. L. Yarin, "Experimental investigation of the governing parameters in the electrospinning of polymer solutions,45(2004), 2017–2030, 2017.
[6] G. C. Gazquez et al.,Influence of solution properties and process parameters on the formation and morphology of YSZ and NiO ceramic nanofibers by electrospinning.,Nanomaterials, 7(1)(2017).
[7] Z. Huang, Y. Zhang, M. Kotaki, and S. Ramakrishna.,A review on polymer nanofibers by electrospinning and their applications in nanocomposites.,63(2003) 2223–2253.
[8] P. Gairola, S. P. Gairola, V. Kumar, K. Singh, and S. K. Dhawan, "Barium ferrite and graphite integrated with polyaniline as effective shield against electromagnetic interference," Synth. Met., vol. 221, pp. 326–331, 2016.
[9] J. Wiley, r Fo Pe er Re vi Fo r P r R.
[10] B. Bera.,Literature Review on Electrospinning Process ( A Fascinating Fiber Fabrication Technique ), 8(2016) 972–984.
[11] S. Tan, R. Inai, M. Kotaki, and S. Ramakrishna.,Systematic parameter study for ultra-fine fiber fabrication via electrospinning process.,46(2005) 6128–6134.
[12] A. Doustgani.,Effect of electrospinning process parameters of polycaprolactone and nanohydroxyapatite nanocomposite nanofibers.,Text. Res. J., 85(1)(2015).
[13] J. Daenicke, M. Lämmlein, F. Steinhübl, and D. W. Schubert.,Revealing key parameters to minimize the diameter of polypropylene fibers produced in the melt electrospinning process., E-Polymers, 19(1)(2019).
[14] N. Mittal, U. Singh, and B. S. Sohi.,A novel energy efficient stable clustering approach for wireless sensor networks., Wirel. Pers. Commun., 95(3)(2017) 2947–2971.
[15] N. J. Kanu, E. Gupta, U. K. Vates, and G. K. Singh.,Electrospinning process parameters optimization for biofunctional curcumin/gelatin nanofibers., Mater. Res. Express, 7(3)(2020).
[16] F. Topuz and T. Uyar.,Electrospinning of Cyclodextrin Nanofibers: The Effect of Process Parameters., J. Nanomater.,(2020).
[17] D. Sharma and B. K. Satapathy.,Optimization and physical performance evaluation of electro-spun nanofibrous mats of PLA, PCL and their blends., J. Ind. Text., (2020).
[18] E. Ghafari, Y. Feng, Y. Liu, I. Ferguson, and N. Lu.,Accepted Manuscript., (2017).
[19] K. M. Batoo et al.,Structural, morphological and electrical properties of Cd2+doped MgFe2-xO4 ferrite nanoparticles., J. Alloys Compd., 726(2017) 179–186.
Keywords
Electrospinning; Nanofibers; Fabrication; Polymer solution; Innovation