Fluorene-based macromolecular nanostructures and nanomaterials for organic (opto)electronics

Ling Hai Xie; Su Hui Yang; Jin Yi Lin; Ming Dong Yi; Wei Huang

doi:10.1098/rsta.2012.0337

Fluorene-based macromolecular nanostructures and nanomaterials for organic (opto)electronics

Ling Hai Xie, Su Hui Yang, Jin Yi Lin, Ming Dong Yi, Wei Huang

Research output: Contribution to journal › Review article › peer-review

49 Scopus citations

Abstract

Nanotechnology not only opens up the realm of nanoelectronics and nanophotonics, but also upgrades organic thin-film electronics and optoelectronics. In this review, we introduce polymer semiconductors and plastic electronics briefly, followed by various top-down and bottom-up nano approaches to organic electronics. Subsequently, we highlight the progress in polyfluorene-based nanoparticles and nanowires (nanofibres), their tunable optoelectronic properties as well as their applications in polymer light-emitting devices, solar cells, field-effect transistors, photodetectors, lasers, optical waveguides and others. Finally, an outlook is given with regard to fourelement complex devices via organic nanotechnology andmolecularmanufacturing that will spread to areas such as organic mechatronics in the framework of robotic-directed science and technology.

Original language	English
Article number	20120337
Journal	Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences
Volume	371
Issue number	2000
DOIs	https://doi.org/10.1098/rsta.2012.0337
State	Published - 13 Oct 2013
Externally published	Yes

Keywords

Conjugated polymers
Electronics
Nanostructures
Organic semiconductors
Thin-film devices

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10.1098/rsta.2012.0337

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title = "Fluorene-based macromolecular nanostructures and nanomaterials for organic (opto)electronics",

abstract = "Nanotechnology not only opens up the realm of nanoelectronics and nanophotonics, but also upgrades organic thin-film electronics and optoelectronics. In this review, we introduce polymer semiconductors and plastic electronics briefly, followed by various top-down and bottom-up nano approaches to organic electronics. Subsequently, we highlight the progress in polyfluorene-based nanoparticles and nanowires (nanofibres), their tunable optoelectronic properties as well as their applications in polymer light-emitting devices, solar cells, field-effect transistors, photodetectors, lasers, optical waveguides and others. Finally, an outlook is given with regard to fourelement complex devices via organic nanotechnology andmolecularmanufacturing that will spread to areas such as organic mechatronics in the framework of robotic-directed science and technology.",

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author = "Xie, {Ling Hai} and Yang, {Su Hui} and Lin, {Jin Yi} and Yi, {Ming Dong} and Wei Huang",

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doi = "10.1098/rsta.2012.0337",

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AU - Xie, Ling Hai

AU - Yang, Su Hui

AU - Lin, Jin Yi

AU - Yi, Ming Dong

AU - Huang, Wei

PY - 2013/10/13

Y1 - 2013/10/13

N2 - Nanotechnology not only opens up the realm of nanoelectronics and nanophotonics, but also upgrades organic thin-film electronics and optoelectronics. In this review, we introduce polymer semiconductors and plastic electronics briefly, followed by various top-down and bottom-up nano approaches to organic electronics. Subsequently, we highlight the progress in polyfluorene-based nanoparticles and nanowires (nanofibres), their tunable optoelectronic properties as well as their applications in polymer light-emitting devices, solar cells, field-effect transistors, photodetectors, lasers, optical waveguides and others. Finally, an outlook is given with regard to fourelement complex devices via organic nanotechnology andmolecularmanufacturing that will spread to areas such as organic mechatronics in the framework of robotic-directed science and technology.

AB - Nanotechnology not only opens up the realm of nanoelectronics and nanophotonics, but also upgrades organic thin-film electronics and optoelectronics. In this review, we introduce polymer semiconductors and plastic electronics briefly, followed by various top-down and bottom-up nano approaches to organic electronics. Subsequently, we highlight the progress in polyfluorene-based nanoparticles and nanowires (nanofibres), their tunable optoelectronic properties as well as their applications in polymer light-emitting devices, solar cells, field-effect transistors, photodetectors, lasers, optical waveguides and others. Finally, an outlook is given with regard to fourelement complex devices via organic nanotechnology andmolecularmanufacturing that will spread to areas such as organic mechatronics in the framework of robotic-directed science and technology.

KW - Conjugated polymers

KW - Electronics

KW - Nanostructures

KW - Organic semiconductors

KW - Thin-film devices

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JO - Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences

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Fluorene-based macromolecular nanostructures and nanomaterials for organic (opto)electronics

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Keywords

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