Quench-resistant and stable nanocarbon dot/sheet emitters with tunable solid-state fluorescence: Via aggregation-induced color switching

Qing Chang; Yamei Ding; Shuai Cheng; Wei Shen; Zhe Zhou; Yuhang Yin; Tao Sun; Chaoyi Ban; Zhengtao Deng; Juqing Liu; Fei Xiu; Wei Huang

doi:10.1039/c8nr08429g

Quench-resistant and stable nanocarbon dot/sheet emitters with tunable solid-state fluorescence: Via aggregation-induced color switching

Qing Chang, Yamei Ding, Shuai Cheng, Wei Shen, Zhe Zhou, Yuhang Yin, Tao Sun, Chaoyi Ban, Zhengtao Deng, Juqing Liu, Fei Xiu, Wei Huang

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

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

19 Scopus citations

Abstract

Nanocarbon fluorescence materials are promising color converters for multicolor emission via phosphor-coated light emitting devices (LEDs). Herein, a facile time-controlled solvothermal route was developed to prepare solid-state multicolor nanocarbon emitters comprising dot/sheet nanohybrids. The nanocarbons demonstrate an aggregation-induced color switching behavior, leading to tunable light emission from blue to yellow by modulating the solvothermal reaction time. Particularly, these emitters show outstanding film-forming ability directly and a high production yield (∼40%). Moreover, the nanocarbon-coated ultraviolet LEDs exhibit high quality multicolor light emission and excellent color stability at high voltages, impelling the development of emerging carbon phosphors in fundamental research studies and practical applications.

Original language	English
Pages (from-to)	2131-2137
Number of pages	7
Journal	Nanoscale
Volume	11
Issue number	5
DOIs	https://doi.org/10.1039/c8nr08429g
State	Published - 7 Feb 2019

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title = "Quench-resistant and stable nanocarbon dot/sheet emitters with tunable solid-state fluorescence: Via aggregation-induced color switching",

abstract = "Nanocarbon fluorescence materials are promising color converters for multicolor emission via phosphor-coated light emitting devices (LEDs). Herein, a facile time-controlled solvothermal route was developed to prepare solid-state multicolor nanocarbon emitters comprising dot/sheet nanohybrids. The nanocarbons demonstrate an aggregation-induced color switching behavior, leading to tunable light emission from blue to yellow by modulating the solvothermal reaction time. Particularly, these emitters show outstanding film-forming ability directly and a high production yield (∼40%). Moreover, the nanocarbon-coated ultraviolet LEDs exhibit high quality multicolor light emission and excellent color stability at high voltages, impelling the development of emerging carbon phosphors in fundamental research studies and practical applications.",

author = "Qing Chang and Yamei Ding and Shuai Cheng and Wei Shen and Zhe Zhou and Yuhang Yin and Tao Sun and Chaoyi Ban and Zhengtao Deng and Juqing Liu and Fei Xiu and Wei Huang",

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doi = "10.1039/c8nr08429g",

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TY - JOUR

T1 - Quench-resistant and stable nanocarbon dot/sheet emitters with tunable solid-state fluorescence

T2 - Via aggregation-induced color switching

AU - Chang, Qing

AU - Ding, Yamei

AU - Cheng, Shuai

AU - Shen, Wei

AU - Zhou, Zhe

AU - Yin, Yuhang

AU - Sun, Tao

AU - Ban, Chaoyi

AU - Deng, Zhengtao

AU - Liu, Juqing

AU - Xiu, Fei

AU - Huang, Wei

PY - 2019/2/7

Y1 - 2019/2/7

N2 - Nanocarbon fluorescence materials are promising color converters for multicolor emission via phosphor-coated light emitting devices (LEDs). Herein, a facile time-controlled solvothermal route was developed to prepare solid-state multicolor nanocarbon emitters comprising dot/sheet nanohybrids. The nanocarbons demonstrate an aggregation-induced color switching behavior, leading to tunable light emission from blue to yellow by modulating the solvothermal reaction time. Particularly, these emitters show outstanding film-forming ability directly and a high production yield (∼40%). Moreover, the nanocarbon-coated ultraviolet LEDs exhibit high quality multicolor light emission and excellent color stability at high voltages, impelling the development of emerging carbon phosphors in fundamental research studies and practical applications.

AB - Nanocarbon fluorescence materials are promising color converters for multicolor emission via phosphor-coated light emitting devices (LEDs). Herein, a facile time-controlled solvothermal route was developed to prepare solid-state multicolor nanocarbon emitters comprising dot/sheet nanohybrids. The nanocarbons demonstrate an aggregation-induced color switching behavior, leading to tunable light emission from blue to yellow by modulating the solvothermal reaction time. Particularly, these emitters show outstanding film-forming ability directly and a high production yield (∼40%). Moreover, the nanocarbon-coated ultraviolet LEDs exhibit high quality multicolor light emission and excellent color stability at high voltages, impelling the development of emerging carbon phosphors in fundamental research studies and practical applications.

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JO - Nanoscale

JF - Nanoscale

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ER -

Quench-resistant and stable nanocarbon dot/sheet emitters with tunable solid-state fluorescence: Via aggregation-induced color switching

Abstract

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