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Electrospinning of silica nanofibers without carrier polymer for advanced engineering applications

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Abstract
Nanofibrous materials produced via electrospinning are characterized by a high porosity, large specific surface area, and high pore interconnectivity and, therefore, show potential for, e.g., separation and filtration. The development of more inert nanofibers with higher thermal and chemical resistance extends the application field. Silica nanofibrous membranes produced by direct electrospinning of a sol–gel solution without a sacrificing carrier meet these challenging demands. A combination of hydrolysis and condensation reactions of the tetraethoxysilane (TEOS) precursor, results in dense silica nanofibers with superior mechanical properties, without a rough and uneven surface, allowing the use in advanced engineering applications.
Keywords
Electrospinning, Silica, Sol-gel synthesis, Hydrophobicity, Viscosity

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Citation

Please use this url to cite or link to this publication:

MLA
Loccufier, Eva, et al. “Electrospinning of Silica Nanofibers without Carrier Polymer for Advanced Engineering Applications.” AUTEX2019 : 19th World Textile Conference on Textiles at the Crossroads, AUTEX, 2019.
APA
Loccufier, E., Geltmeyer, J., Esquivel, D., D’hooge, D., De Buysser, K., & De Clerck, K. (2019). Electrospinning of silica nanofibers without carrier polymer for advanced engineering applications. In AUTEX2019 : 19th world textile conference on textiles at the crossroads. Ghent, Belgium: AUTEX.
Chicago author-date
Loccufier, Eva, Jozefien Geltmeyer, Dolores Esquivel, Dagmar D’hooge, Klaartje De Buysser, and Karen De Clerck. 2019. “Electrospinning of Silica Nanofibers without Carrier Polymer for Advanced Engineering Applications.” In AUTEX2019 : 19th World Textile Conference on Textiles at the Crossroads. AUTEX.
Chicago author-date (all authors)
Loccufier, Eva, Jozefien Geltmeyer, Dolores Esquivel, Dagmar D’hooge, Klaartje De Buysser, and Karen De Clerck. 2019. “Electrospinning of Silica Nanofibers without Carrier Polymer for Advanced Engineering Applications.” In AUTEX2019 : 19th World Textile Conference on Textiles at the Crossroads. AUTEX.
Vancouver
1.
Loccufier E, Geltmeyer J, Esquivel D, D’hooge D, De Buysser K, De Clerck K. Electrospinning of silica nanofibers without carrier polymer for advanced engineering applications. In: AUTEX2019 : 19th world textile conference on textiles at the crossroads. AUTEX; 2019.
IEEE
[1]
E. Loccufier, J. Geltmeyer, D. Esquivel, D. D’hooge, K. De Buysser, and K. De Clerck, “Electrospinning of silica nanofibers without carrier polymer for advanced engineering applications,” in AUTEX2019 : 19th world textile conference on textiles at the crossroads, Ghent, Belgium, 2019.
@inproceedings{8620308,
  abstract     = {Nanofibrous materials produced via electrospinning are characterized by a high porosity, large specific surface area, and high pore interconnectivity and, therefore, show potential for, e.g., separation and filtration. The development of more inert nanofibers with higher thermal and chemical resistance extends the application field. Silica nanofibrous membranes produced by direct electrospinning of a sol–gel solution without a sacrificing carrier meet these challenging demands. A combination of hydrolysis and condensation reactions of the tetraethoxysilane (TEOS) precursor, results in dense silica nanofibers with superior mechanical properties, without a rough and uneven surface, allowing the use in advanced engineering applications.},
  author       = {Loccufier, Eva and Geltmeyer, Jozefien and Esquivel, Dolores and D'hooge, Dagmar and De Buysser, Klaartje and De Clerck, Karen},
  booktitle    = {AUTEX2019 : 19th world textile conference on textiles at the crossroads},
  isbn         = {9789079892068},
  keywords     = {Electrospinning,Silica,Sol-gel synthesis,Hydrophobicity,Viscosity},
  language     = {eng},
  location     = {Ghent, Belgium},
  pages        = {6},
  publisher    = {AUTEX},
  title        = {Electrospinning of silica nanofibers without carrier polymer for advanced engineering applications},
  year         = {2019},
}