Self-Assembled Hybrid Materials Based on Organic Nanocrystals and Carbon Nanotubes

Angelica Niazov-Elkan; Haim Weissman; Sounak Dutta; Sidney R. Cohen; Mark A. Iron; Iddo Pinkas; Tatyana Bendikov; Boris Rybtchinski

doi:10.1002/adma.201705027

Self-Assembled Hybrid Materials Based on Organic Nanocrystals and Carbon Nanotubes

Angelica Niazov-Elkan, Haim Weissman, Sounak Dutta, Sidney R. Cohen, Mark A. Iron, Iddo Pinkas, Tatyana Bendikov, Boris Rybtchinski^*

^*Corresponding author for this work

Weizmann Institute of Science

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

26 Scopus citations

Abstract

Organic crystalline materials are used as dyes/pigments, pharmaceuticals, and active components of photonic and electronic devices. There is great interest in integrating organic crystals with inorganic and carbon nanomaterials to create nanocomposites with enhanced properties. Such efforts are hampered by the difficulties in interfacing organic crystals with dissimilar materials. Here, an approach that employs organic nanocrystallization is presented to fabricate solution-processed organic nanocrystal/carbon nanotube (ONC/CNT) hybrid materials based on readily available organic dyes (perylene diimides (PDIs)) and carbon nanotubes. The hybrids are prepared by self-assembly in aqueous media to afford free-standing films with tunable CNT content. These exhibit excellent conductivities (as high as 5.78 ± 0.56 S m⁻¹), and high thermal stability that are superior to common polymer/CNT hybrids. The color of the hybrids can be tuned by adding various PDI derivatives. ONC/CNT hybrids represent a novel class of nanocomposites, applicable as optoelectronic and conductive colorant materials.

Original language	English
Article number	1705027
Journal	Advanced Materials
Volume	30
Issue number	2
DOIs	https://doi.org/10.1002/adma.201705027
State	Published - 11 Jan 2018
Externally published	Yes

Funding

Funders	Funder number
Helen and Martin Kimmel Center for Molecular Design
Minerva Foundation
Israel Science Foundation

Keywords

carbon nanotubes
conductive materials
hybrid materials
organic nanocrystals
perylene diimides

Access to Document

10.1002/adma.201705027

Cite this

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title = "Self-Assembled Hybrid Materials Based on Organic Nanocrystals and Carbon Nanotubes",

abstract = "Organic crystalline materials are used as dyes/pigments, pharmaceuticals, and active components of photonic and electronic devices. There is great interest in integrating organic crystals with inorganic and carbon nanomaterials to create nanocomposites with enhanced properties. Such efforts are hampered by the difficulties in interfacing organic crystals with dissimilar materials. Here, an approach that employs organic nanocrystallization is presented to fabricate solution-processed organic nanocrystal/carbon nanotube (ONC/CNT) hybrid materials based on readily available organic dyes (perylene diimides (PDIs)) and carbon nanotubes. The hybrids are prepared by self-assembly in aqueous media to afford free-standing films with tunable CNT content. These exhibit excellent conductivities (as high as 5.78 ± 0.56 S m−1), and high thermal stability that are superior to common polymer/CNT hybrids. The color of the hybrids can be tuned by adding various PDI derivatives. ONC/CNT hybrids represent a novel class of nanocomposites, applicable as optoelectronic and conductive colorant materials.",

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AU - Weissman, Haim

AU - Dutta, Sounak

AU - Cohen, Sidney R.

AU - Iron, Mark A.

AU - Pinkas, Iddo

AU - Bendikov, Tatyana

AU - Rybtchinski, Boris

PY - 2018/1/11

Y1 - 2018/1/11

N2 - Organic crystalline materials are used as dyes/pigments, pharmaceuticals, and active components of photonic and electronic devices. There is great interest in integrating organic crystals with inorganic and carbon nanomaterials to create nanocomposites with enhanced properties. Such efforts are hampered by the difficulties in interfacing organic crystals with dissimilar materials. Here, an approach that employs organic nanocrystallization is presented to fabricate solution-processed organic nanocrystal/carbon nanotube (ONC/CNT) hybrid materials based on readily available organic dyes (perylene diimides (PDIs)) and carbon nanotubes. The hybrids are prepared by self-assembly in aqueous media to afford free-standing films with tunable CNT content. These exhibit excellent conductivities (as high as 5.78 ± 0.56 S m−1), and high thermal stability that are superior to common polymer/CNT hybrids. The color of the hybrids can be tuned by adding various PDI derivatives. ONC/CNT hybrids represent a novel class of nanocomposites, applicable as optoelectronic and conductive colorant materials.

AB - Organic crystalline materials are used as dyes/pigments, pharmaceuticals, and active components of photonic and electronic devices. There is great interest in integrating organic crystals with inorganic and carbon nanomaterials to create nanocomposites with enhanced properties. Such efforts are hampered by the difficulties in interfacing organic crystals with dissimilar materials. Here, an approach that employs organic nanocrystallization is presented to fabricate solution-processed organic nanocrystal/carbon nanotube (ONC/CNT) hybrid materials based on readily available organic dyes (perylene diimides (PDIs)) and carbon nanotubes. The hybrids are prepared by self-assembly in aqueous media to afford free-standing films with tunable CNT content. These exhibit excellent conductivities (as high as 5.78 ± 0.56 S m−1), and high thermal stability that are superior to common polymer/CNT hybrids. The color of the hybrids can be tuned by adding various PDI derivatives. ONC/CNT hybrids represent a novel class of nanocomposites, applicable as optoelectronic and conductive colorant materials.

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KW - conductive materials

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Self-Assembled Hybrid Materials Based on Organic Nanocrystals and Carbon Nanotubes

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Funding

Keywords

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