High-throughput production of kilogram-scale nanofibers by Kármán vortex solution blow spinning

Ziwei Li; Zhiwen Cui; Lihao Zhao; Naveed Hussain; Yanzhen Zhao; Cheng Yang; Xinyu Jiang; Lei Li; Jianan Song; Baopu Zhang; Zekun Cheng; Hui Wu

doi:10.1126/sciadv.abn3690

High-throughput production of kilogram-scale nanofibers by Kármán vortex solution blow spinning

Ziwei Li
, Zhiwen Cui
, Lihao Zhao
, Naveed Hussain
, Yanzhen Zhao
, Cheng Yang
, Xinyu Jiang
, Lei Li
, Jianan Song
, Baopu Zhang
, Zekun Cheng
, Hui Wu^*

^*Corresponding author for this work

Tsinghua University

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

104 Citations (Scopus)

Abstract

The interaction between gas flow and liquid flow, governed by fluid dynamic principles, is of substantial importance in both fundamental science and practical applications. For instance, a precisely designed gas shearing on liquid solution may lead to efficacious production of advanced nanomaterials. Here, we devised a needleless Kármán vortex solution blow spinning system that uses a roll-to-roll nylon thread to deliver spinning solution, coupled with vertically blowing airflow to draw high-quality nanofibers with large throughput. A wide variety of nanofibers including polymers, carbon, ceramics, and composites with tunable diameters were fabricated at ultrahigh rates. The system can be further upgraded from single thread to multiple parallel threads and to the meshes, boosting the production of nanofibers to kilogram scale without compromising their quality.

Original language	English
Article number	abn3690
Journal	Science advances
Volume	8
Issue number	11
DOIs	https://doi.org/10.1126/sciadv.abn3690
Publication status	Published - Mar 2022
Externally published	Yes

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title = "High-throughput production of kilogram-scale nanofibers by K{\'a}rm{\'a}n vortex solution blow spinning",

abstract = "The interaction between gas flow and liquid flow, governed by fluid dynamic principles, is of substantial importance in both fundamental science and practical applications. For instance, a precisely designed gas shearing on liquid solution may lead to efficacious production of advanced nanomaterials. Here, we devised a needleless K{\'a}rm{\'a}n vortex solution blow spinning system that uses a roll-to-roll nylon thread to deliver spinning solution, coupled with vertically blowing airflow to draw high-quality nanofibers with large throughput. A wide variety of nanofibers including polymers, carbon, ceramics, and composites with tunable diameters were fabricated at ultrahigh rates. The system can be further upgraded from single thread to multiple parallel threads and to the meshes, boosting the production of nanofibers to kilogram scale without compromising their quality.",

author = "Ziwei Li and Zhiwen Cui and Lihao Zhao and Naveed Hussain and Yanzhen Zhao and Cheng Yang and Xinyu Jiang and Lei Li and Jianan Song and Baopu Zhang and Zekun Cheng and Hui Wu",

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doi = "10.1126/sciadv.abn3690",

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journal = "Science advances",

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T1 - High-throughput production of kilogram-scale nanofibers by Kármán vortex solution blow spinning

AU - Li, Ziwei

AU - Cui, Zhiwen

AU - Zhao, Lihao

AU - Hussain, Naveed

AU - Zhao, Yanzhen

AU - Yang, Cheng

AU - Jiang, Xinyu

AU - Li, Lei

AU - Song, Jianan

AU - Zhang, Baopu

AU - Cheng, Zekun

AU - Wu, Hui

PY - 2022/3

Y1 - 2022/3

N2 - The interaction between gas flow and liquid flow, governed by fluid dynamic principles, is of substantial importance in both fundamental science and practical applications. For instance, a precisely designed gas shearing on liquid solution may lead to efficacious production of advanced nanomaterials. Here, we devised a needleless Kármán vortex solution blow spinning system that uses a roll-to-roll nylon thread to deliver spinning solution, coupled with vertically blowing airflow to draw high-quality nanofibers with large throughput. A wide variety of nanofibers including polymers, carbon, ceramics, and composites with tunable diameters were fabricated at ultrahigh rates. The system can be further upgraded from single thread to multiple parallel threads and to the meshes, boosting the production of nanofibers to kilogram scale without compromising their quality.

AB - The interaction between gas flow and liquid flow, governed by fluid dynamic principles, is of substantial importance in both fundamental science and practical applications. For instance, a precisely designed gas shearing on liquid solution may lead to efficacious production of advanced nanomaterials. Here, we devised a needleless Kármán vortex solution blow spinning system that uses a roll-to-roll nylon thread to deliver spinning solution, coupled with vertically blowing airflow to draw high-quality nanofibers with large throughput. A wide variety of nanofibers including polymers, carbon, ceramics, and composites with tunable diameters were fabricated at ultrahigh rates. The system can be further upgraded from single thread to multiple parallel threads and to the meshes, boosting the production of nanofibers to kilogram scale without compromising their quality.

UR - https://www.scopus.com/pages/publications/85126692714

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DO - 10.1126/sciadv.abn3690

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AN - SCOPUS:85126692714

SN - 2375-2548

VL - 8

JO - Science advances

JF - Science advances

IS - 11

M1 - abn3690

ER -

High-throughput production of kilogram-scale nanofibers by Kármán vortex solution blow spinning

Abstract

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