Process dependence of morphology and microstructure of cyanine dye J-aggregate film: Correlation with absorption, photo- and electroluminescence properties

Jui Fen Chang; Fan Ching Chien; Ching Wei Cheng; Chen Chih Lin; Yang Han Lu; Hung Sen Wei; Cheng Chung Jaing; Cheng Chung Lee

doi:10.1364/OE.22.029388

Process dependence of morphology and microstructure of cyanine dye J-aggregate film: Correlation with absorption, photo- and electroluminescence properties

Jui Fen Chang, Fan Ching Chien, Ching Wei Cheng, Chen Chih Lin, Yang Han Lu, Hung Sen Wei, Cheng Chung Jaing, Cheng Chung Lee

Department of Optics and Photonics

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

10 Scopus citations

Abstract

Cyanine dye J-aggregate films are a class of absorbing and luminescent materials which have been extensively applied in the polariton-based research. Here we systematically study the DEDOC cyanine dyes J-aggregate films made by layer-by-layer assembly and spin-coating processes to establish a clear correlation between the film structure and the absorption and luminescence properties. From detailed analyses of morphology, optical spectra, and light-emitting diode characteristics, we demonstrate that layer-by-layer assembled film has higher degrees of homogeneity and molecular packing quality than spin-coated film, leading to a higher absorption coefficient, more uniform luminescence, and a greater electroluminescence quantum efficiency with maximized thickness.

Original language	English
Pages (from-to)	29388-29397
Number of pages	10
Journal	Optics Express
Volume	22
Issue number	24
DOIs	https://doi.org/10.1364/OE.22.029388
State	Published - 1 Dec 2014

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title = "Process dependence of morphology and microstructure of cyanine dye J-aggregate film: Correlation with absorption, photo- and electroluminescence properties",

abstract = "Cyanine dye J-aggregate films are a class of absorbing and luminescent materials which have been extensively applied in the polariton-based research. Here we systematically study the DEDOC cyanine dyes J-aggregate films made by layer-by-layer assembly and spin-coating processes to establish a clear correlation between the film structure and the absorption and luminescence properties. From detailed analyses of morphology, optical spectra, and light-emitting diode characteristics, we demonstrate that layer-by-layer assembled film has higher degrees of homogeneity and molecular packing quality than spin-coated film, leading to a higher absorption coefficient, more uniform luminescence, and a greater electroluminescence quantum efficiency with maximized thickness.",

author = "Chang, {Jui Fen} and Chien, {Fan Ching} and Cheng, {Ching Wei} and Lin, {Chen Chih} and Lu, {Yang Han} and Wei, {Hung Sen} and Jaing, {Cheng Chung} and Lee, {Cheng Chung}",

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T1 - Process dependence of morphology and microstructure of cyanine dye J-aggregate film

T2 - Correlation with absorption, photo- and electroluminescence properties

AU - Chang, Jui Fen

AU - Chien, Fan Ching

AU - Cheng, Ching Wei

AU - Lin, Chen Chih

AU - Lu, Yang Han

AU - Wei, Hung Sen

AU - Jaing, Cheng Chung

AU - Lee, Cheng Chung

PY - 2014/12/1

Y1 - 2014/12/1

N2 - Cyanine dye J-aggregate films are a class of absorbing and luminescent materials which have been extensively applied in the polariton-based research. Here we systematically study the DEDOC cyanine dyes J-aggregate films made by layer-by-layer assembly and spin-coating processes to establish a clear correlation between the film structure and the absorption and luminescence properties. From detailed analyses of morphology, optical spectra, and light-emitting diode characteristics, we demonstrate that layer-by-layer assembled film has higher degrees of homogeneity and molecular packing quality than spin-coated film, leading to a higher absorption coefficient, more uniform luminescence, and a greater electroluminescence quantum efficiency with maximized thickness.

AB - Cyanine dye J-aggregate films are a class of absorbing and luminescent materials which have been extensively applied in the polariton-based research. Here we systematically study the DEDOC cyanine dyes J-aggregate films made by layer-by-layer assembly and spin-coating processes to establish a clear correlation between the film structure and the absorption and luminescence properties. From detailed analyses of morphology, optical spectra, and light-emitting diode characteristics, we demonstrate that layer-by-layer assembled film has higher degrees of homogeneity and molecular packing quality than spin-coated film, leading to a higher absorption coefficient, more uniform luminescence, and a greater electroluminescence quantum efficiency with maximized thickness.

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M3 - 期刊論文

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AN - SCOPUS:84914674695

SN - 1094-4087

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JO - Optics Express

JF - Optics Express

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ER -

Process dependence of morphology and microstructure of cyanine dye J-aggregate film: Correlation with absorption, photo- and electroluminescence properties

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