In-situ synchrotron SAXS and WAXS investigation on the deformation of single and coaxial electrospun P(VDF-TrFE)-based nanofibers

Yi Jen Huang*, Yi Fan Chen, Po Han Hsiao, Tu Ngoc Lam, Wen Ching Ko, Mao Yuan Luo, Wei Tsung Chuang, Chun Jen Su, Jen Hao Chang, Cho Fan Chung, E-Wen Huang

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

3 Scopus citations

Abstract

Coaxial core/shell electrospun nanofibers consisting of ferroelectric P(VDF-TrFE) and relaxor ferroelectric P(VDF-TrFE-CTFE) are tailor-made with hierarchical structures to modulate their mechanical properties with respect to their constituents. Compared with two single and the other coaxial membranes prepared in the research, the core/shell-TrFE/CTFE membrane shows a more prominent mechanical anisotropy between revolving direction (RD) and cross direction (CD) associated with improved resistance to tensile stress for the crystallite phase stability and good strength-ductility balance. This is due to the better degree of core/shell-TrFE-CTFE nanofiber alignment and the crystalline/amorphous ratio. The coupling between terpolymer P(VDF-TrFE-CTFE) and copolymer P(VDF-TrFE) is responsible for phase stabilization, comparing the core/shell-TrFE/CTFE with the pristine terpolymer. Moreover, an impressive collective deformation mechanism of a two-length scale in the core/shell composite structure is found. We apply in-situ synchrotron X-ray to resolve the two-length scale simultaneously by using the small-angle X-ray scattering to characterize the nanofibers and the wide-angle X-ray diffraction to identify the phase transformations. Our findings may serve as guidelines for the fabrication of the electrospun nanofibers used as membranes-based electroactive polymers.

Original languageEnglish
Article number12669
Pages (from-to)1-20
Number of pages20
JournalInternational Journal Of Molecular Sciences
Volume22
Issue number23
DOIs
StatePublished - 1 Dec 2021

Keywords

  • Coaxial electrospun core/shell nanofibers
  • Collective mechanisms
  • Hierarchical structure
  • Tensile modulus
  • Wide-angle X-ray diffraction

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