Controllable Singlet–Triplet Energy Splitting of Graphene Quantum Dots through Oxidation: From Phosphorescence to TADF

Park, Minsu; Kim, Hyung Suk; Yoon, Hyewon; Kim, Jin; Lee, Suk-Ki; Yoo, Seunghyup; Jeon, Seungwon

doi:10.1002/adma.202000936

Cited by 110 publications

(102 citation statements)

References 59 publications

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“… 24 (g) Time-resolved information security using GQDs-based long-lived RTP/TADF. 28 Images reproduced with permission from refs ( 48 , 77 , 88 , 90 , 25 , 24 , and 28 ). Copyright 2018 American Chemical Society, 2019 WILEY-VCH, 2017 Royal Society of Chemistry, 2019 Royal Society of Chemistry, 2019 WILEY-VCH, 2018 WILEY-VCH, and 2020 WILEY-VCH.…”

Section: Optical Applicationsmentioning

confidence: 99%

Carbon Dots: A New Type of Carbon-Based Nanomaterial with Wide Applications

2020

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Carbon dots (CDs), as a new type of carbon-based nanomaterial, have attracted broad research interest for years, because of their diverse physicochemical properties and favorable attributes like good biocompatibility, unique optical properties, low cost, ecofriendliness, abundant functional groups (e.g., amino, hydroxyl, carboxyl), high stability, and electron mobility. In this Outlook, we comprehensively summarize the classification of CDs based on the analysis of their formation mechanism, micro-/nanostructure and property features, and describe their synthetic methods and optical properties including strong absorption, photoluminescence, and phosphorescence. Furthermore, the recent significant advances in diverse applications, including optical (sensor, anticounterfeiting), energy (light-emitting diodes, catalysis, photovoltaics, supercapacitors), and promising biomedicine, are systematically highlighted. Finally, we envisage the key issues to be challenged, future research directions, and perspectives to show a full picture of CDs-based materials.

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Section: Optical Applicationsmentioning

confidence: 99%

Carbon Dots: A New Type of Carbon-Based Nanomaterial with Wide Applications

2020

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“…In this connection, luminescent nanomaterials made of pure elements such as carbon dots, graphene QDs, silicon QDs, and phosphorous dots have been extensively studied for the last few years. 11,[16][17][18][19][20] Recently, S-dots have attracted great attention owing to their intricate electronic properties and promising applicability as emitting and catalytic materials. [21][22][23] Sulfur is earth-abundant and has been used in many fields such as the production of sulfuric acid, lithium-sulfur batteries, potassium-sulfur batteries, supercapacitors, and in sulfur-modified polymeric and organic transformation materials.…”

Section: Introductionmentioning

confidence: 99%

Emergence of long afterglow and room temperature phosphorescence emissions from ultra-small sulfur dots

et al. 2022

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“…For instance, GQDs embedded in boron oxynitride with lower oxidation (4.63%) exhibited a phosphorescence lifetime of 783 ms, and in the case of highly oxidized GQDs (59.60%) the lifetime value showed a decrement to 125 ms. The long-lived optical property of GQDs was utilized in anticounterfeiting and multilevel information security applications (Park et al, 2020). It has been well documented that two-dimensional materials have been successfully utilized to generate zero-dimensional QDs.…”

Section: Fluorescence and Phosphorescence Propertiesmentioning

confidence: 99%

Recent progress on graphene quantum dots‐based fluorescence sensors for food safety and quality assessment applications

Sharma

Ali

Devaraj

et al. 2021

Comp Rev Food Sci Food Safe

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The versatile photophysicalproperties, high surface-to-volume ratio, superior photostability, higher biocompatibility, and availability of active sites make graphene quantum dots (GQDs) an ideal candidate for applications in sensing, bioimaging, photocatalysis, energy storage, and flexible electronics. GQDsbased sensors involve luminescence sensors, electrochemical sensors, optical biosensors, electrochemical biosensors, and photoelectrochemical biosensors.Although plenty of sensing strategies have been developed using GQDs for biosensing and environmental applications, the use of GQDs-based fluorescence techniques remains unexplored or underutilized in the field of food science and technology. To the best of our knowledge, comprehensive review of the GQDsbased fluorescence sensing applications concerning food quality analysis has not yet been done. This review article focuses on the recent progress on the synthesis strategies, electronic properties, and fluorescence mechanisms of GQDs.The various GQDs-based fluorescence detection strategies involving Förster resonance energy transfer-or inner filter effect-driven fluorescence turn-on and turn-off response mechanisms toward trace-level detection of toxic metal ions, toxic adulterants, and banned chemical substances in foodstuffs are summarized. The challenges associated with the pretreatment steps of complex food matrices and prospects and challenges associated with the GQDs-based fluorescent probes are discussed. This review could serve as a precedent for further advancement in interdisciplinary research involving the development of versatile GQDs-based fluorescent probes toward food science and technology applications.

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Controllable Singlet–Triplet Energy Splitting of Graphene Quantum Dots through Oxidation: From Phosphorescence to TADF

Cited by 110 publications

References 59 publications

Carbon Dots: A New Type of Carbon-Based Nanomaterial with Wide Applications

Carbon Dots: A New Type of Carbon-Based Nanomaterial with Wide Applications

Emergence of long afterglow and room temperature phosphorescence emissions from ultra-small sulfur dots

Recent progress on graphene quantum dots‐based fluorescence sensors for food safety and quality assessment applications

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