Controlling the Diameter of Electrospun Yttria-Stabilized Zirconia Nanofibers

Ja Yang Koo; Sangyeon Hwang; Minwoo Ahn; Mingi Choi; Doyoung Byun; Wonyoung Lee

doi:10.1111/jace.14331

Controlling the Diameter of Electrospun Yttria-Stabilized Zirconia Nanofibers

Ja Yang Koo, Sangyeon Hwang, Minwoo Ahn, Mingi Choi, Doyoung Byun, Wonyoung Lee

Dept. of Future Energy Convergence

Sungkyunkwan University

Research output: Contribution to journal › Article › peer-review

36 Scopus citations

Abstract

This work reports the precise diameter control of electrospun yttria-stabilized zirconia (YSZ) nanofibers from 200 to 900 nm after calcination. Fabricated YSZ nanofibers showed porous nanocrystalline structures with high aspect ratios of more than 500:1 and high surface-to-volume ratios with a specific surface area of 43.32 m²/g. The diameter of the YSZ nanofibers increased with the viscosity of the precursor solution, which was controlled by the concentrations of either polymers (polyacrylonitrile) or ceramic precursors (YSZ). We present a modified correlation between the diameter of a nanofiber and the synthetic conditions, as the observed behavior for calcined ceramic nanofibers deviated from the expected behavior. Our results demonstrate a modified but simple approach to fabricate ceramic nanofibers with desired diameters, providing a new design guideline for many electrochemical applications.

Original language	English
Pages (from-to)	3146-3150
Number of pages	5
Journal	Journal of the American Ceramic Society
Volume	99
Issue number	9
DOIs	https://doi.org/10.1111/jace.14331
State	Published - 2016

Keywords

electrospinning
nanofiber
yttria-stabilized zirconia

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10.1111/jace.14331

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title = "Controlling the Diameter of Electrospun Yttria-Stabilized Zirconia Nanofibers",

abstract = "This work reports the precise diameter control of electrospun yttria-stabilized zirconia (YSZ) nanofibers from 200 to 900 nm after calcination. Fabricated YSZ nanofibers showed porous nanocrystalline structures with high aspect ratios of more than 500:1 and high surface-to-volume ratios with a specific surface area of 43.32 m2/g. The diameter of the YSZ nanofibers increased with the viscosity of the precursor solution, which was controlled by the concentrations of either polymers (polyacrylonitrile) or ceramic precursors (YSZ). We present a modified correlation between the diameter of a nanofiber and the synthetic conditions, as the observed behavior for calcined ceramic nanofibers deviated from the expected behavior. Our results demonstrate a modified but simple approach to fabricate ceramic nanofibers with desired diameters, providing a new design guideline for many electrochemical applications.",

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T1 - Controlling the Diameter of Electrospun Yttria-Stabilized Zirconia Nanofibers

AU - Koo, Ja Yang

AU - Hwang, Sangyeon

AU - Ahn, Minwoo

AU - Choi, Mingi

AU - Byun, Doyoung

AU - Lee, Wonyoung

PY - 2016

Y1 - 2016

N2 - This work reports the precise diameter control of electrospun yttria-stabilized zirconia (YSZ) nanofibers from 200 to 900 nm after calcination. Fabricated YSZ nanofibers showed porous nanocrystalline structures with high aspect ratios of more than 500:1 and high surface-to-volume ratios with a specific surface area of 43.32 m2/g. The diameter of the YSZ nanofibers increased with the viscosity of the precursor solution, which was controlled by the concentrations of either polymers (polyacrylonitrile) or ceramic precursors (YSZ). We present a modified correlation between the diameter of a nanofiber and the synthetic conditions, as the observed behavior for calcined ceramic nanofibers deviated from the expected behavior. Our results demonstrate a modified but simple approach to fabricate ceramic nanofibers with desired diameters, providing a new design guideline for many electrochemical applications.

AB - This work reports the precise diameter control of electrospun yttria-stabilized zirconia (YSZ) nanofibers from 200 to 900 nm after calcination. Fabricated YSZ nanofibers showed porous nanocrystalline structures with high aspect ratios of more than 500:1 and high surface-to-volume ratios with a specific surface area of 43.32 m2/g. The diameter of the YSZ nanofibers increased with the viscosity of the precursor solution, which was controlled by the concentrations of either polymers (polyacrylonitrile) or ceramic precursors (YSZ). We present a modified correlation between the diameter of a nanofiber and the synthetic conditions, as the observed behavior for calcined ceramic nanofibers deviated from the expected behavior. Our results demonstrate a modified but simple approach to fabricate ceramic nanofibers with desired diameters, providing a new design guideline for many electrochemical applications.

KW - electrospinning

KW - nanofiber

KW - yttria-stabilized zirconia

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ER -

Controlling the Diameter of Electrospun Yttria-Stabilized Zirconia Nanofibers

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Keywords

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