Artificial lotus leaf structures from assembling carbon nanotubes and their applications in hydrophobic textiles

Yuyang Liu; Jing Tang; Ronghua Wang; Haifeng Lu; Li Li; Yeeyee Kong; Kaihong Qi; J. H. Xin

doi:10.1039/b613914k

Artificial lotus leaf structures from assembling carbon nanotubes and their applications in hydrophobic textiles

Yuyang Liu, Jing Tang, Ronghua Wang, Haifeng Lu, Li Li, Yeeyee Kong, Kaihong Qi, J. H. Xin^*

^*Corresponding author for this work

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

263 Citations (Scopus)

Abstract

Artificial lotus leaf structures were fabricated on cotton substrates via the controlled assembly of carbon nanotubes onto the surface of cotton substrates. Both pristine carbon nanotubes (CNTs) and surface modified carbon nanotubes (PBA-g-CNTs) were used as building blocks to biomimic the surface microstructures of lotus leaves at the nanoscale. Cotton fabrics, which otherwise have perfect water absorbabilities, have been endowed with super-hydrophobic properties - water contact angles greater than 150° were measured. The method provides a bionic route to create hydrophobic textiles. Furthermore, considering the novel mechanical and electric properties of carbon nanotubes, these carbon nanotubes coated cotton fabrics will find potential application in sensing, conducting and special textiles.

Original language	English
Pages (from-to)	1071-1078
Number of pages	8
Journal	Journal of Materials Chemistry
Volume	17
Issue number	11
DOIs	https://doi.org/10.1039/b613914k
Publication status	Published - 2007
Externally published	Yes

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title = "Artificial lotus leaf structures from assembling carbon nanotubes and their applications in hydrophobic textiles",

abstract = "Artificial lotus leaf structures were fabricated on cotton substrates via the controlled assembly of carbon nanotubes onto the surface of cotton substrates. Both pristine carbon nanotubes (CNTs) and surface modified carbon nanotubes (PBA-g-CNTs) were used as building blocks to biomimic the surface microstructures of lotus leaves at the nanoscale. Cotton fabrics, which otherwise have perfect water absorbabilities, have been endowed with super-hydrophobic properties - water contact angles greater than 150° were measured. The method provides a bionic route to create hydrophobic textiles. Furthermore, considering the novel mechanical and electric properties of carbon nanotubes, these carbon nanotubes coated cotton fabrics will find potential application in sensing, conducting and special textiles.",

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T1 - Artificial lotus leaf structures from assembling carbon nanotubes and their applications in hydrophobic textiles

AU - Liu, Yuyang

AU - Tang, Jing

AU - Wang, Ronghua

AU - Lu, Haifeng

AU - Li, Li

AU - Kong, Yeeyee

AU - Qi, Kaihong

AU - Xin, J. H.

PY - 2007

Y1 - 2007

N2 - Artificial lotus leaf structures were fabricated on cotton substrates via the controlled assembly of carbon nanotubes onto the surface of cotton substrates. Both pristine carbon nanotubes (CNTs) and surface modified carbon nanotubes (PBA-g-CNTs) were used as building blocks to biomimic the surface microstructures of lotus leaves at the nanoscale. Cotton fabrics, which otherwise have perfect water absorbabilities, have been endowed with super-hydrophobic properties - water contact angles greater than 150° were measured. The method provides a bionic route to create hydrophobic textiles. Furthermore, considering the novel mechanical and electric properties of carbon nanotubes, these carbon nanotubes coated cotton fabrics will find potential application in sensing, conducting and special textiles.

AB - Artificial lotus leaf structures were fabricated on cotton substrates via the controlled assembly of carbon nanotubes onto the surface of cotton substrates. Both pristine carbon nanotubes (CNTs) and surface modified carbon nanotubes (PBA-g-CNTs) were used as building blocks to biomimic the surface microstructures of lotus leaves at the nanoscale. Cotton fabrics, which otherwise have perfect water absorbabilities, have been endowed with super-hydrophobic properties - water contact angles greater than 150° were measured. The method provides a bionic route to create hydrophobic textiles. Furthermore, considering the novel mechanical and electric properties of carbon nanotubes, these carbon nanotubes coated cotton fabrics will find potential application in sensing, conducting and special textiles.

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JO - Journal of Materials Chemistry

JF - Journal of Materials Chemistry

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Artificial lotus leaf structures from assembling carbon nanotubes and their applications in hydrophobic textiles

Abstract

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