Two‐Step Oxidation Synthesis of Sulfur with a Red Aggregation‐Induced Emission

Wang, Zhenguang; Zhang, Chuanchuan; Wang, Henggang; Xiong, Yuan; Yang, Xinjian; Shi, Yue; Rogach, Andrey L.

doi:10.1002/ange.201915511

Cited by 10 publications

(6 citation statements)

References 45 publications

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“…1d (inset). Obviously, the emergence of the peak at around 330 nm is the key factor related to enhanced PL emission, 22 although the origin of this band is still an open question.…”

Section: Resultsmentioning

confidence: 99%

49.25% efficient cyan emissive sulfur dots via a microwave-assisted route

Dai

Wei

et al. 2020

RSC Adv.

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“…1d (inset). Obviously, the emergence of the peak at around 330 nm is the key factor related to enhanced PL emission, 22 although the origin of this band is still an open question.…”

Section: Resultsmentioning

confidence: 99%

49.25% efficient cyan emissive sulfur dots via a microwave-assisted route

Dai

Wei

et al. 2020

RSC Adv.

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“…Elemental sulfur (S), one of the main coproducts of the hydrodesulfurization reaction in the natural gas and petroleum refining industry, is abundant and cheap. , At present, the S has been widely used in sulfuric acid production, sulfur-rich polymers, chemical fertilizers, lithium–sulfur batteries, and other fields. − However, every year, there is still up to 8 million tons of surplus S because the consumption of S is far lower than its production . Meanwhile, hoarding such a large amount of surplus S is risk due to its high reactivity.…”

Section: Introductionmentioning

confidence: 99%

Efficient Conversion of Elemental Sulfur to Robust Ultrabright Fluorescent Sulfur Quantum Dots Using Sulfur-Ethylenediamine Precursor

Gao

Huang

Tan

et al. 2022

ACS Sustainable Chem. Eng.

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The direct utilization of abundant and cheap elemental sulfur (S) to synthesize sulfur quantum dots (SQDs) with satisfactory yield and photoluminescence quantum yield (PLQY) remains a big challenge. Here, we report a simple and effective method for mass-producible synthesis of ultrabright fluorescent SQDs based on one-pot solvothermal treatment of S-ethylenediamine (S-EDA) solution. The PLQY of synthesized SQDs and the corresponding S-to-SQDs conversion efficiency (CE) can reach as high as 87.8% and 15.9%, respectively, both of which are the highest values to date. In addition, the SQDs simultaneously show good water solubility, superior storage stability, stable fluorescence against ionic strength variation and pH change, and low toxicity, which enable them promising for numerous applications such as fabrication of fluorescent polymer composite and ink. Furthermore, SQDs also present strong two-photon emission, and their use for two-photon fluorescence imaging is reported here for the first time. This work thus highlights enormous opportunities not only for bringing SQDs from laboratory research to real applications but also for the value-added utilization of S resource.

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“…The intensive peaks at 167.5, 168.6, and 169.7 eV suggest the presence of SO 3 2− and SO 4 2− [16] . The broad peak between 162 and 164 eV confirms the presence of elemental sulfur, and the peak at 161.4 eV suggests the absorption of divalent sulfur ions on the surface of S‐dots [17] . The FTIR spectra of pure PEG and S‐dots also show identical peaks (Figure 2c), located at 2873 cm −1 , 1455 cm −1 , 948 cm −1 , corresponding to the stretching vibration of C−H, the bending vibration of C−H and the stretching vibration of O−H, respectively [18] …”

Section: Resultsmentioning

confidence: 95%

Ratiometric Fluorescence Assay for Pyrophosphate Based on Sulfur Nanodots Decorated Metal‐Organic Frameworks

Wang

et al. 2023

Chemistry A European J

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Selective and sensitive detection of inorganic pyrophosphate (PPi) are of great significance both for clinical applications and fundamental research. In this work, a ratiometric fluorescent probe was developed by decorating a porphyrin‐based metal‐organic framework (PCN‐224) with sulfur nanodots (S‐dots). The red‐fluorescence of PCN‐224 was significantly promoted (more than 6‐fold) by S‐dots through inhibiting molecular motion of porphyrin ligand, which also provided active sites for the detection of Cu2+ and PPi. Cu2+ could selectively quench the red‐fluorescence of PCN‐224 through coordination with porphyrin ligand, and the competition reaction between PPi and Cu2+ resulted in the decomposing of coordination and recovery of red‐fluorescence. The blue‐fluorescence from S‐dots was deemed as effective reference, which provided a built‐in correction in complex environments. Based on these photophysical properties, a ratiometric fluorescence assay was developed for the quantitative detection of Cu2+ and PPi, with a limit of detection of 0.11 and 2.66 μM, respectively. The accuracy and practical applications of assays were also demonstrated by detection in tap water and human serum samples.

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Two‐Step Oxidation Synthesis of Sulfur with a Red Aggregation‐Induced Emission

Cited by 10 publications

References 45 publications

49.25% efficient cyan emissive sulfur dots via a microwave-assisted route

49.25% efficient cyan emissive sulfur dots via a microwave-assisted route

Efficient Conversion of Elemental Sulfur to Robust Ultrabright Fluorescent Sulfur Quantum Dots Using Sulfur-Ethylenediamine Precursor

Ratiometric Fluorescence Assay for Pyrophosphate Based on Sulfur Nanodots Decorated Metal‐Organic Frameworks

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