Nitrogen-Doping Enhanced Fluorescent Carbon Dots: Green Synthesis and Their Applications for Bioimaging and Label-Free Detection of Au<sup>3+</sup> Ions

Liao, Jie; Cheng, Zehong; Zhou, Li

doi:10.1021/acssuschemeng.6b00018

Cited by 203 publications

(117 citation statements)

References 60 publications

(111 reference statements)

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“…The quantum yield of BCDs was increased by N‐doped with ethylenediamine. With the increase in the amount of ethylenediamine added from 50 to 200 mg, the quantum yield of N‐doped BCDs gradually increased from 13.12% to 28.46% . When the amount of ethylenediamine was increased again, the quantum yield value of N‐doped BCDs did not change.…”

Section: Methods For the Synthesis Of Bcdsmentioning

confidence: 97%

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Biomass‐Derived Carbon Dots and Their Applications

Meng

Bai

Wang

et al. 2019

Energy & Environ Materials

332

179

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Carbon dots (CDs) have received much attention due to their superior properties including water solubility, low toxicity, biocompatibility, small size, fluorescence, and ease of modification. The use of a more environmentally friendly method to prepare high‐quality CDs is still an urgent question waiting for solve. The use of renewable, inexpensive, and green biomass resources not only meets the urgent need for large‐scale synthesis biomass CDs (BCDs), but also promotes the development of sustainable applications. In this article, we summarize the representative methods for synthesizing BCDs in green and simple ways using biomass as a carbon source, including hydrothermal carbonization, and microwave, pyrolysis. The prepared BCDs have a uniform particle size distribution and a relatively high throughput, which provide a method to scale up industrial production. Moreover, the integration of specific optical properties, that is, tunable photoluminescence and up‐photoluminescence, has led to remarkable use in bioimaging, sensing, and drug delivery. But the current review is not particularly comprehensive for BCDs. Therefore, we now provide a review focusing on the synthesis, properties, and recent advances in BCDs in biosensing, bioimaging, optoelectronics, and catalytic applications.

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Section: Methods For the Synthesis Of Bcdsmentioning

confidence: 97%

“…synthesized BCDs with a low detection limit of 5 n m of Cu 2+ . Liao et al . reported a simple and green strategy to produce BCDs via a HTC of a mixture of natural peach gum polysaccharide and ethylenediamine.…”

Section: Applications Of Bcdsmentioning

confidence: 99%

Biomass‐Derived Carbon Dots and Their Applications

Meng

Bai

Wang

et al. 2019

Energy & Environ Materials

332

179

View full text Add to dashboard Cite

show abstract

“…Their optical properties are quite similar and also dependent on the pH of the medium. Recent studies on boron and nitrogen, contents influenced luminescence properties of CNDs also support the reaction mechanism mentioned above that the presence of nitrogen content may result more contribution to π‐conjugation, thus bathochromic shift, whereas the inclusion of boron compounds in precursor may form boronate complex with adjacent hydroxyl groups and thus restricting flexibility and quenching. Moreover, X‐ray Photoelectron spectroscopic (XPS) studies on CNDs indicate the presence of three types of nitrogens ‐ pyridinic (398.1 eV), pyrrolic (399.5 eV) and tertiary nitrogen (401.6 eV) .…”

Section: Resultsmentioning

confidence: 53%

The Role of Glutathione and Ethanol in Dictating the Emission Dynamics of Natural Resources‐Derived Highly Luminescent Carbon Nanodots

et al. 2017

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An integrative approach is adopted to address the intriguing aspect of fluorescence dynamics in carbon nanodots (CNDs). In this contribution, we offer two different types of highly luminescent CNDs derived from a natural‐resource and glucose‐amine‐CTAB reactions by employing fast and cost‐effective methods. Lemon‐juice derived CNDs (CND1) exhibit excitation‐independent emission, whereas the other one shows excitation‐dependent fluorescence; the former one possesses more of a nanosheet like structure whereas later exhibit particle behavior. We also provide conclusive evidence on the existence of the CNDs in a state of aggregation in aqueous solution and the presence of high molecular weight structure, contrary to reported observations. Circular dichroism studies suggest strong H‐bonding networks in CNDs. The juxtaposition of experimental findings indicates the presence of pyrrolopyridine‐type fluorophoric moiety. The temperature‐dependent luminescence properties of CNDs is highly reversible in nature therefore, synthesized CNDs can find potential application as nanothermometer. Metal‐ion dependent modulation of fluorescence properties of CND1 suggest its applications in ion‐sensing.

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“…CDs have found promising applications in many areas including bioimaging, sensors, medical diagnosis, and so on. Chemical sensing systems based on CDs have been mainly used for the detection of metal ions …”

Section: Introductionmentioning

confidence: 99%

Nitrogen‐doped carbon dots as a fluorescent probe for the highly sensitive detection of Ag⁺ and cell imaging

Zuo

Pan

et al. 2017

Luminescence

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Nitrogen-Doping Enhanced Fluorescent Carbon Dots: Green Synthesis and Their Applications for Bioimaging and Label-Free Detection of Au³⁺ Ions

Cited by 203 publications

References 60 publications

Biomass‐Derived Carbon Dots and Their Applications

Biomass‐Derived Carbon Dots and Their Applications

The Role of Glutathione and Ethanol in Dictating the Emission Dynamics of Natural Resources‐Derived Highly Luminescent Carbon Nanodots

Nitrogen‐doped carbon dots as a fluorescent probe for the highly sensitive detection of Ag⁺ and cell imaging

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Nitrogen-Doping Enhanced Fluorescent Carbon Dots: Green Synthesis and Their Applications for Bioimaging and Label-Free Detection of Au3+ Ions

Cited by 203 publications

References 60 publications

Biomass‐Derived Carbon Dots and Their Applications

Biomass‐Derived Carbon Dots and Their Applications

The Role of Glutathione and Ethanol in Dictating the Emission Dynamics of Natural Resources‐Derived Highly Luminescent Carbon Nanodots

Nitrogen‐doped carbon dots as a fluorescent probe for the highly sensitive detection of Ag+ and cell imaging

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Product

Resources

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Nitrogen-Doping Enhanced Fluorescent Carbon Dots: Green Synthesis and Their Applications for Bioimaging and Label-Free Detection of Au³⁺ Ions

Nitrogen‐doped carbon dots as a fluorescent probe for the highly sensitive detection of Ag⁺ and cell imaging