Innovations in the Solid‐State Fluorescence of Carbon Dots: Strategies, Optical Manipulations, and Applications

Wang, Haolin; Ai, Li; Song, Haoqiang; Song, Ziqi; Yong, Xue; Qu, Songnan; Lu, Siyu

doi:10.1002/adfm.202303756

Cited by 47 publications

(18 citation statements)

References 186 publications

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“…There have been already a number of excellent reviews focusing on different aspects of photoluminescent CDs, such as their synthesis, luminescence mechanism, optical property regulation and optoelectronic applications. 13,37–41 However, only a very limited number of review articles have focused on SSCDs and their related applications. In this review, with the aim of promoting better SSCD engineering and their further development, we primarily update the latest significant developments on SSCDs, including synthesis, classification such as fluorescent SSCDs, phosphorescent SSCDs, delay fluorescent SSCDs, and their recent advances in LEDs, as illustrated in Fig.…”

Section: Introductionmentioning

confidence: 99%

The emergence and prospects of carbon dots with solid-state photoluminescence for light-emitting diodes

Yuan,

Teng,

et al. 2024

Mater. Horiz.

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Section: Introductionmentioning

confidence: 99%

The emergence and prospects of carbon dots with solid-state photoluminescence for light-emitting diodes

Yuan,

Teng,

et al. 2024

Mater. Horiz.

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“…Researchers have sought to optimize the preparation of CDs, modify their surfaces, modulate their performance, and explore innovative applications. Many major breakthroughs have been made in recent years, including the development of multicolor, deep red, and near-infrared emission, [7][8][9][10][11] narrow emission wavelength ranges, [12][13][14] solid-state fluorescence, [15][16][17] two-or multi-photon photoluminescence (PL), [18] chirality, [19] room-temperature phosphorescence, [20] and thermally activated delayed fluorescence. [21,22] CDs usually refers to a class of zero-dimensional carbon particles less than 10 nm in size, whose structure is composed of carbon core with different crystallinity and various functional groups on the surface.…”

Section: Introductionmentioning

confidence: 99%

Surface Modification Functionalized Carbon Dots

Wang,

Ai,

Song

et al. 2023

Chemistry A European J

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Carbon dots (CDs) smaller than 10 nm constitute a new type of fluorescent carbon‐based nanomaterial. They have attracted much attention owing to their unique structures and excellent photoelectric properties. Primitive CDs usually comprise carbon and oxygen and are synthesized in one step from various natural products or synthetic organic compounds, usually via microwave or hydrothermal methods. However, the uniformity of surface functional groups often make CDs lack the diversity of active sites required for specific applications. Therefore, the functionalization of CDs by specific groups is a powerful strategy for improving their photophysical and photochemical properties. This paper reviews surface modification strategies to overcome these shortcomings. Functionalizing CDs using covalent or non‐covalent modification can give them unique properties and broaden their applicability.

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“…[ 65–68 ] Several composite polymer films with tunable RTP properties have been obtained. [ 69–71 ] Therefore, doping CDs into stimuli‐responsive polymers can potentially realize synchronous responses of the polymer and CDs under the same stimulus.…”

Section: Introductionmentioning

confidence: 99%

Construction of Carbon Dots@LiCl‐polyacrylamide with Humidity‐Induced Ultralong Room‐Temperature Phosphorescence to Fluorescence and Rigid‐to‐Flexible Transition Behavior

Zhao,

Jia,

Zhang

et al. 2023

Macromol. Rapid Commun.

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The continuous advancement of luminescent materials has placed increasingly stringent requirements on dynamic color‐tunable ultralong room‐temperature phosphorescence (URTP) materials that can respond to external stimuli. Nevertheless, endowing URTP materials with stimuli‐response induced dynamic color tuning is a challenging task. This study introduces a carbon dots (CDs)@LiCl‐polyacrylamide (PAM) polymer system that switches from URTP to fluorescence under humidity stimuli, accompanied by a transition from rigidity to flexibility. The obtained rigid CDs@LiCl‐PAM exhibits ultralong green phosphorescence with a lifetime of 560 ms in the initial state. After absorbing moisture, it becomes flexible and its phosphorescence switches off. Moreover, the emission of the CDs@LiCl‐PAM film depends on the excitation wavelength. This property can potentially used in multicolored luminescence applications and displays. Moreover, multicolor luminescent patterns can be constructed in situ using the water‐absorption ability of the obtained thin film and the Förster resonance energy‐transfer strategy. The proposed strategy is expected to promote the interdisciplinary development of intelligent information encryption, anti‐counterfeiting, and smart flexible display materials.This article is protected by copyright. All rights reserved

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Innovations in the Solid‐State Fluorescence of Carbon Dots: Strategies, Optical Manipulations, and Applications

Cited by 47 publications

References 186 publications

The emergence and prospects of carbon dots with solid-state photoluminescence for light-emitting diodes

The emergence and prospects of carbon dots with solid-state photoluminescence for light-emitting diodes

Surface Modification Functionalized Carbon Dots

Construction of Carbon Dots@LiCl‐polyacrylamide with Humidity‐Induced Ultralong Room‐Temperature Phosphorescence to Fluorescence and Rigid‐to‐Flexible Transition Behavior

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