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Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaperJournal articleResearchpeer-review

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Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers. / Yang, Chuanxu; Thomsen, Rasmus Peter; Ogaki, Ryosuke et al.

In: Journal of Materials Chemistry B, Vol. 3, No. 4577, 14.06.2015, p. 4577-4584.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaperJournal articleResearchpeer-review

Harvard

Yang, C, Thomsen, RP, Ogaki, R, Kjems, J & Mian Teo, B 2015, 'Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers', Journal of Materials Chemistry B, vol. 3, no. 4577, pp. 4577-4584. https://doi.org/10.1039/C5TB00467E

APA

Yang, C., Thomsen, R. P., Ogaki, R., Kjems, J., & Mian Teo, B. (2015). Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers. Journal of Materials Chemistry B, 3(4577), 4577-4584. https://doi.org/10.1039/C5TB00467E

CBE

Yang C, Thomsen RP, Ogaki R, Kjems J, Mian Teo B. 2015. Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers. Journal of Materials Chemistry B. 3(4577):4577-4584. https://doi.org/10.1039/C5TB00467E

MLA

Yang, Chuanxu et al. "Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers". Journal of Materials Chemistry B. 2015, 3(4577). 4577-4584. https://doi.org/10.1039/C5TB00467E

Vancouver

Yang C, Thomsen RP, Ogaki R, Kjems J, Mian Teo B. Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers. Journal of Materials Chemistry B. 2015 Jun 14;3(4577):4577-4584. doi: 10.1039/C5TB00467E

Author

Yang, Chuanxu ; Thomsen, Rasmus Peter ; Ogaki, Ryosuke et al. / Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers. In: Journal of Materials Chemistry B. 2015 ; Vol. 3, No. 4577. pp. 4577-4584.

Bibtex

@article{bc69d71c19004931b31240b0f1a429e0,
title = "Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers",
abstract = "Carbon dots (Cdots) have recently emerged as a novel platform of fluorescent nanomaterials. These carbon nanoparticles have great potential in biomedical applications such as bioimaging as they exhibit excellent photoluminescence properties, chemical inertness and low cytotoxicity in comparison to widely used semiconductor quantum dots. However, it remains a great challenge to prepare highly stable, water-soluble green luminescent Cdots with a high quantum yield. Herein we report a new synthesis route for green luminescent Cdots imbuing these desirable properties and demonstrate their potential in biomedical applications. Oligoethylenimine (OEI)–β-cyclodextrin (βCD) Cdots were synthesised using a simple and fast heating method in phosphoric acid. The synthesised Cdots showed strong green fluorescence under UV excitation with a 30% quantum yield and exhibited superior stability over a wide pH range. We further assembled the Cdots into nanocomplexes with hyaluronic acid for potential use as theranostic carriers. After confirming that the Cdot nanocomplexes exhibited negligible cytotoxicity with H1299 lung cancer cells, in vitro bioimaging of the Cdots and nanocomplexes was carried out. Doxorubicin (Dox), an anticancer drug, was also loaded into the nanocomplexes and the cytotoxicity effect of Dox loaded nanocomplexes with H1299 lung cancer cells was evaluated. Thus, this work demonstrates the great potential of the novel OEI–βCD Cdots in bioimaging and as theranostic carriers.",
author = "Chuanxu Yang and Thomsen, {Rasmus Peter} and Ryosuke Ogaki and J{\o}rgen Kjems and {Mian Teo}, Boon",
year = "2015",
month = jun,
day = "14",
doi = "10.1039/C5TB00467E",
language = "English",
volume = "3",
pages = "4577--4584",
journal = "Journal of Materials Chemistry B",
issn = "2050-750X",
publisher = "ROYAL SOC CHEMISTRY",
number = "4577",

}

RIS

TY - JOUR

T1 - Ultrastable green fluorescence carbon dots with a high quantum yield for bioimaging and use as theranostic carriers

AU - Yang, Chuanxu

AU - Thomsen, Rasmus Peter

AU - Ogaki, Ryosuke

AU - Kjems, Jørgen

AU - Mian Teo, Boon

PY - 2015/6/14

Y1 - 2015/6/14

N2 - Carbon dots (Cdots) have recently emerged as a novel platform of fluorescent nanomaterials. These carbon nanoparticles have great potential in biomedical applications such as bioimaging as they exhibit excellent photoluminescence properties, chemical inertness and low cytotoxicity in comparison to widely used semiconductor quantum dots. However, it remains a great challenge to prepare highly stable, water-soluble green luminescent Cdots with a high quantum yield. Herein we report a new synthesis route for green luminescent Cdots imbuing these desirable properties and demonstrate their potential in biomedical applications. Oligoethylenimine (OEI)–β-cyclodextrin (βCD) Cdots were synthesised using a simple and fast heating method in phosphoric acid. The synthesised Cdots showed strong green fluorescence under UV excitation with a 30% quantum yield and exhibited superior stability over a wide pH range. We further assembled the Cdots into nanocomplexes with hyaluronic acid for potential use as theranostic carriers. After confirming that the Cdot nanocomplexes exhibited negligible cytotoxicity with H1299 lung cancer cells, in vitro bioimaging of the Cdots and nanocomplexes was carried out. Doxorubicin (Dox), an anticancer drug, was also loaded into the nanocomplexes and the cytotoxicity effect of Dox loaded nanocomplexes with H1299 lung cancer cells was evaluated. Thus, this work demonstrates the great potential of the novel OEI–βCD Cdots in bioimaging and as theranostic carriers.

AB - Carbon dots (Cdots) have recently emerged as a novel platform of fluorescent nanomaterials. These carbon nanoparticles have great potential in biomedical applications such as bioimaging as they exhibit excellent photoluminescence properties, chemical inertness and low cytotoxicity in comparison to widely used semiconductor quantum dots. However, it remains a great challenge to prepare highly stable, water-soluble green luminescent Cdots with a high quantum yield. Herein we report a new synthesis route for green luminescent Cdots imbuing these desirable properties and demonstrate their potential in biomedical applications. Oligoethylenimine (OEI)–β-cyclodextrin (βCD) Cdots were synthesised using a simple and fast heating method in phosphoric acid. The synthesised Cdots showed strong green fluorescence under UV excitation with a 30% quantum yield and exhibited superior stability over a wide pH range. We further assembled the Cdots into nanocomplexes with hyaluronic acid for potential use as theranostic carriers. After confirming that the Cdot nanocomplexes exhibited negligible cytotoxicity with H1299 lung cancer cells, in vitro bioimaging of the Cdots and nanocomplexes was carried out. Doxorubicin (Dox), an anticancer drug, was also loaded into the nanocomplexes and the cytotoxicity effect of Dox loaded nanocomplexes with H1299 lung cancer cells was evaluated. Thus, this work demonstrates the great potential of the novel OEI–βCD Cdots in bioimaging and as theranostic carriers.

U2 - 10.1039/C5TB00467E

DO - 10.1039/C5TB00467E

M3 - Journal article

VL - 3

SP - 4577

EP - 4584

JO - Journal of Materials Chemistry B

JF - Journal of Materials Chemistry B

SN - 2050-750X

IS - 4577

ER -