Alternating current electrospinning

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The nanofibrous plume generated during alternating current electrospinning without using a grounded collector.

Alternating current electrospinning is a fiber formation technique to produce micro- and nanofibers from polymer solutions under the dynamic drawing force of the electrostatic field with periodically changing polarity. The main benefit of alternating current electrospinning is that multiple times higher productivities are achievable compared to widely used direct current electrospinning setups.[1][2][3][4][5][6][7][8]

References[]

  1. ^ Pokorny, P.; Kostakova, E.; Sanetrnik, F.; Mikes, P.; Chvojka, J.; Kalous, T.; Bilek, M.; Pejchar, K.; Valtera, J.; Lukas, D. (2014). "Effective AC needleless and collectorless electrospinning for yarn production". Phys. Chem. Chem. Phys. 16 (48): 26816–26822. Bibcode:2014PCCP...1626816P. doi:10.1039/C4CP04346D. PMID 25373725.
  2. ^ Sivan, Manikandan; Madheswaran, Divyabharathi; Valtera, Jan; Kostakova, Eva Kuzelova; Lukas, David (2022-01-01). "Alternating current electrospinning: The impacts of various high-voltage signal shapes and frequencies on the spinnability and productivity of polycaprolactone nanofibers". Materials & Design. 213: 110308. doi:10.1016/j.matdes.2021.110308. ISSN 0264-1275. S2CID 245075252.
  3. ^ Balogh, Attila; Cselkó, Richárd; Démuth, Balázs; Verreck, Geert; Mensch, Jürgen; Marosi, György; Nagy, Zsombor Kristóf (November 2015). "Alternating current electrospinning for preparation of fibrous drug delivery systems". International Journal of Pharmaceutics. 495 (1): 75–80. doi:10.1016/j.ijpharm.2015.08.069. PMID 26320549.
  4. ^ Balogh, Attila; Farkas, Balázs; Verreck, Geert; Mensch, Jürgen; Borbás, Enikő; Nagy, Brigitta; Marosi, György; Nagy, Zsombor Kristóf (May 2016). "AC and DC electrospinning of hydroxypropylmethylcellulose with polyethylene oxides as secondary polymer for improved drug dissolution" (PDF). International Journal of Pharmaceutics. 505 (1–2): 159–166. doi:10.1016/j.ijpharm.2016.03.024. PMID 26997426.
  5. ^ Balogh, Attila; Farkas, Balázs; Pálvölgyi, Ádám; Domokos, András; Démuth, Balázs; Marosi, György; Nagy, Zsombor Kristóf (June 2017). "Novel Alternating Current Electrospinning of Hydroxypropylmethylcellulose Acetate Succinate (HPMCAS) Nanofibers for Dissolution Enhancement: The Importance of Solution Conductivity". Journal of Pharmaceutical Sciences. 106 (6): 1634–1643. doi:10.1016/j.xphs.2017.02.021. PMID 28257818.
  6. ^ Sivan, Manikandan; Madheswaran, Divyabharathi; Asadian, Mahtab; Cools, Pieter; Thukkaram, Monica; Van Der Voort, Pascal; Morent, Rino; De Geyter, Nathalie; Lukas, David (2020-10-15). "Plasma treatment effects on bulk properties of polycaprolactone nanofibrous mats fabricated by uncommon AC electrospinning: A comparative study". Surface and Coatings Technology. 399: 126203. doi:10.1016/j.surfcoat.2020.126203. ISSN 0257-8972. S2CID 224924026.
  7. ^ Madheswaran, Divyabharathi; Sivan, Manikandan; Valtera, Jan; Kostakova, Eva Kuzelova; Egghe, Tim; Asadian, Mahtab; Novotny, Vit; Nguyen, Nhung H. A.; Sevcu, Alena; Morent, Rino; Geyter, Nathalie De (2021). "Composite yarns with antibacterial nanofibrous sheaths produced by collectorless alternating-current electrospinning for suture applications". Journal of Applied Polymer Science. 139 (13): 51851. doi:10.1002/app.51851. ISSN 1097-4628. S2CID 243969095.
  8. ^ Manikandan, S.; Divyabharathi, M.; Tomas, K.; Pavel, P.; David, L. (2019-01-01). "Production of poly (ε-caprolactone) Antimicrobial Nanofibers by Needleless Alternating Current Electrospinning". Materials Today: Proceedings. 6th International Conference on Recent Advances in Materials, Minerals & Environment (RAMM) 2018, RAMM 2018, 27 - 29 November 2018, Penang, Malaysia. 17: 1100–1104. doi:10.1016/j.matpr.2019.06.526. ISSN 2214-7853. S2CID 202207593.
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