Constructing honeycomb architectures from polymer carbon dot composites for luminous efficacy enhancement of LEDs

Haixia Shen; Jiazhuang Guo; Luting Ling; Fucheng Li; Qing Li; Cai Feng Wang; Jing Wang; Su Chen

doi:10.1007/s00339-019-2386-2

Constructing honeycomb architectures from polymer carbon dot composites for luminous efficacy enhancement of LEDs

Haixia Shen, Jiazhuang Guo, Luting Ling, Fucheng Li, Qing Li, Cai Feng Wang, Jing Wang, Su Chen

COLLEGE OF CHEMICAL ENGINEERING

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2 Scopus citations

Abstract

In this work, we report a facile construction of honeycomb-patterned membranes from polymer carbon dot (PCD) composites, which are demonstrated to effectively enhance the luminous efficacy of GaN-based light-emitting diodes (LEDs). A series of PCD composites were successfully achieved by a pyrolysis process from poly(methyl methacrylate-co-dimethyl diallyl ammonium chloride) copolymers, in which CDs were in situ formed and bonded with the polymer chains. Subsequently, ordered porous PCD membranes with a bifunctionality of fluorescence and hydrophobicity were generated via a “breath figure” method under humid conditions. Significantly, these honeycomb-like architectures could contribute to 41.9% improvement of the luminous efficacy for LEDs, showing great potentials for electrical, optoelectronic, and photovoltaic applications.

Original language	English
Article number	91
Journal	Applied Physics A: Materials Science and Processing
Volume	125
Issue number	2
DOIs	https://doi.org/10.1007/s00339-019-2386-2
State	Published - 1 Feb 2019

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title = "Constructing honeycomb architectures from polymer carbon dot composites for luminous efficacy enhancement of LEDs",

abstract = "In this work, we report a facile construction of honeycomb-patterned membranes from polymer carbon dot (PCD) composites, which are demonstrated to effectively enhance the luminous efficacy of GaN-based light-emitting diodes (LEDs). A series of PCD composites were successfully achieved by a pyrolysis process from poly(methyl methacrylate-co-dimethyl diallyl ammonium chloride) copolymers, in which CDs were in situ formed and bonded with the polymer chains. Subsequently, ordered porous PCD membranes with a bifunctionality of fluorescence and hydrophobicity were generated via a “breath figure” method under humid conditions. Significantly, these honeycomb-like architectures could contribute to 41.9% improvement of the luminous efficacy for LEDs, showing great potentials for electrical, optoelectronic, and photovoltaic applications.",

author = "Haixia Shen and Jiazhuang Guo and Luting Ling and Fucheng Li and Qing Li and Wang, {Cai Feng} and Jing Wang and Su Chen",

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T1 - Constructing honeycomb architectures from polymer carbon dot composites for luminous efficacy enhancement of LEDs

AU - Shen, Haixia

AU - Guo, Jiazhuang

AU - Ling, Luting

AU - Li, Fucheng

AU - Li, Qing

AU - Wang, Cai Feng

AU - Wang, Jing

AU - Chen, Su

PY - 2019/2/1

Y1 - 2019/2/1

N2 - In this work, we report a facile construction of honeycomb-patterned membranes from polymer carbon dot (PCD) composites, which are demonstrated to effectively enhance the luminous efficacy of GaN-based light-emitting diodes (LEDs). A series of PCD composites were successfully achieved by a pyrolysis process from poly(methyl methacrylate-co-dimethyl diallyl ammonium chloride) copolymers, in which CDs were in situ formed and bonded with the polymer chains. Subsequently, ordered porous PCD membranes with a bifunctionality of fluorescence and hydrophobicity were generated via a “breath figure” method under humid conditions. Significantly, these honeycomb-like architectures could contribute to 41.9% improvement of the luminous efficacy for LEDs, showing great potentials for electrical, optoelectronic, and photovoltaic applications.

AB - In this work, we report a facile construction of honeycomb-patterned membranes from polymer carbon dot (PCD) composites, which are demonstrated to effectively enhance the luminous efficacy of GaN-based light-emitting diodes (LEDs). A series of PCD composites were successfully achieved by a pyrolysis process from poly(methyl methacrylate-co-dimethyl diallyl ammonium chloride) copolymers, in which CDs were in situ formed and bonded with the polymer chains. Subsequently, ordered porous PCD membranes with a bifunctionality of fluorescence and hydrophobicity were generated via a “breath figure” method under humid conditions. Significantly, these honeycomb-like architectures could contribute to 41.9% improvement of the luminous efficacy for LEDs, showing great potentials for electrical, optoelectronic, and photovoltaic applications.

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Constructing honeycomb architectures from polymer carbon dot composites for luminous efficacy enhancement of LEDs

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