Precise Fabrication and Manipulation of Individual Polymer Nanofibers

Daewon Kim; Byeong Jun Cha; Hua Guo; Guanhui Gao; Chris Pennington; Michael S. Wong; Bezawit A. Getachew; Yimo Han

doi:10.1021/acs.nanolett.4c00799

Precise Fabrication and Manipulation of Individual Polymer Nanofibers

Daewon Kim, Byeong Jun Cha, Hua Guo, Guanhui Gao, Chris Pennington, Michael S. Wong, Bezawit A. Getachew, Yimo Han

Dept. of Fine Chemistry

Rice University

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

3 Scopus citations

Abstract

Polymer nanofibers hold promise in a wide range of applications owing to their diverse properties, flexibility, and cost effectiveness. In this study, we introduce a polymer nanofiber drawing process in a scanning electron microscope and focused ion beam (SEM/FIB) instrument with in situ observation. We employed a nanometer-sharp tungsten needle and prepolymer microcapsules to enable nanofiber drawing in a vacuum environment. This method produces individual polymer nanofibers with diameters as small as ∼500 nm and lengths extending to millimeters, yielding nanofibers with an aspect ratio of 2000:1. The attachment to the tungsten manipulator ensures accurate transfer of the polymer nanofiber to diverse substrate types as well as fabrication of assembled structures. Our findings provide valuable insights into ultrafine polymer fiber drawing, paving the way for high-precision manipulation and assembly of polymer nanofibers.

Original language	English
Pages (from-to)	6038-6042
Number of pages	5
Journal	Nano Letters
Volume	24
Issue number	20
DOIs	https://doi.org/10.1021/acs.nanolett.4c00799
State	Published - 22 May 2024

Keywords

FIB
fiber drawing
microcapsule
nanofiber
polymer
SEM

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10.1021/acs.nanolett.4c00799

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title = "Precise Fabrication and Manipulation of Individual Polymer Nanofibers",

abstract = "Polymer nanofibers hold promise in a wide range of applications owing to their diverse properties, flexibility, and cost effectiveness. In this study, we introduce a polymer nanofiber drawing process in a scanning electron microscope and focused ion beam (SEM/FIB) instrument with in situ observation. We employed a nanometer-sharp tungsten needle and prepolymer microcapsules to enable nanofiber drawing in a vacuum environment. This method produces individual polymer nanofibers with diameters as small as ∼500 nm and lengths extending to millimeters, yielding nanofibers with an aspect ratio of 2000:1. The attachment to the tungsten manipulator ensures accurate transfer of the polymer nanofiber to diverse substrate types as well as fabrication of assembled structures. Our findings provide valuable insights into ultrafine polymer fiber drawing, paving the way for high-precision manipulation and assembly of polymer nanofibers.",

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doi = "10.1021/acs.nanolett.4c00799",

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AU - Kim, Daewon

AU - Cha, Byeong Jun

AU - Guo, Hua

AU - Gao, Guanhui

AU - Pennington, Chris

AU - Wong, Michael S.

AU - Getachew, Bezawit A.

AU - Han, Yimo

PY - 2024/5/22

Y1 - 2024/5/22

N2 - Polymer nanofibers hold promise in a wide range of applications owing to their diverse properties, flexibility, and cost effectiveness. In this study, we introduce a polymer nanofiber drawing process in a scanning electron microscope and focused ion beam (SEM/FIB) instrument with in situ observation. We employed a nanometer-sharp tungsten needle and prepolymer microcapsules to enable nanofiber drawing in a vacuum environment. This method produces individual polymer nanofibers with diameters as small as ∼500 nm and lengths extending to millimeters, yielding nanofibers with an aspect ratio of 2000:1. The attachment to the tungsten manipulator ensures accurate transfer of the polymer nanofiber to diverse substrate types as well as fabrication of assembled structures. Our findings provide valuable insights into ultrafine polymer fiber drawing, paving the way for high-precision manipulation and assembly of polymer nanofibers.

AB - Polymer nanofibers hold promise in a wide range of applications owing to their diverse properties, flexibility, and cost effectiveness. In this study, we introduce a polymer nanofiber drawing process in a scanning electron microscope and focused ion beam (SEM/FIB) instrument with in situ observation. We employed a nanometer-sharp tungsten needle and prepolymer microcapsules to enable nanofiber drawing in a vacuum environment. This method produces individual polymer nanofibers with diameters as small as ∼500 nm and lengths extending to millimeters, yielding nanofibers with an aspect ratio of 2000:1. The attachment to the tungsten manipulator ensures accurate transfer of the polymer nanofiber to diverse substrate types as well as fabrication of assembled structures. Our findings provide valuable insights into ultrafine polymer fiber drawing, paving the way for high-precision manipulation and assembly of polymer nanofibers.

KW - FIB

KW - fiber drawing

KW - microcapsule

KW - nanofiber

KW - polymer

KW - SEM

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JO - Nano Letters

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ER -

Precise Fabrication and Manipulation of Individual Polymer Nanofibers

Abstract

Keywords

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