Facile patterning of electrospun polymer fibers enabled by electrostatic lensing interactions

Titov, K; Tan, J

Journal article

Facile patterning of electrospun polymer fibers enabled by electrostatic lensing interactions

Abstract:: Hierarchical polymer fibers with long-range ordering have been straightforwardly fabricated employing a macroscale patterned mesh comprising microscale metallic filaments as a conductive collector, in an otherwise conventional electrospinning apparatus. Using electrostatic simulations, we elucidate that the patterning electric field is extremely confined to the immediate vicinity of the mesh collector surface. This lensing phenomenon is controlling the fiber patterning effect, and its strength decays with height above the patterned surface. Our study sheds new light on the physical mechanism underpinning electrospinning and offers a new approach for engineering fiber architectures where a precise control of in-plane physical properties is sought.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Titov, K., & Tan, J. (2016). Facile patterning of electrospun polymer fibers enabled by electrostatic lensing interactions. APL Materials, 4(8).

MLA Style

Titov, K., and J. Tan. “Facile Patterning of Electrospun Polymer Fibers Enabled by Electrostatic Lensing Interactions.” APL Materials, vol. 4, no. 8, AIP Publishing, 2016.

Chicago Style

Titov, K, and J Tan. 2016. “Facile Patterning of Electrospun Polymer Fibers Enabled by Electrostatic Lensing Interactions.” APL Materials 4 (8).
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Files:: Titov_APLMater_2016.pdf

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Publisher copy:: 10.1063/1.4960982

Authors

+ Titov, K More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Engineering Science
Role:: Author

+ Tan, J More by this author

Institution:: University of Oxford
Oxford college:: Balliol College
Role:: Author

+ Engineering and Physical Sciences Research Council More from this funder

Funding agency for:: Tan, J
Grant:: EP/K031503/1; EP/N014960/1; EP/K031503/1; EP/N014960/1

+ Balliol College, Oxford More from this funder

Grant:: 2014b/3

+ John Fell Fund More from this funder

Grant:: 151/120

Publisher:: AIP Publishing
Journal:: APL Materials More from this journal
Volume:: 4
Issue:: 8
Article number:: 4
Publication date:: 2016-08-16
Acceptance date:: 2016-08-02
DOI:: 10.1063/1.4960982
EISSN:: 2166-532X

Pubs id:: pubs:638807
UUID:: uuid:b32d1bd7-e372-4832-a953-fa4a2403b950
Local pid:: pubs:638807
Source identifiers:: 638807
Deposit date:: 2016-08-16

Terms of use

Copyright holder:: Titov and Tan
Notes:: Copyright © 2016 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).

Licence:: CC Attribution (CC BY)

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Journal article

Facile patterning of electrospun polymer fibers enabled by electrostatic lensing interactions

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Facile patterning of electrospun polymer fibers enabled by electrostatic lensing interactions

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