Nitrogen and phosphorus co-doped graphene quantum dots: Synthesis from adenosine triphosphate, optical properties, and cellular imaging

Arundithi Ananthanarayanan; Yue Wang; Parimal Routh; Mahasin Alam Sk; Aung Than; Ming Lin; Jie Zhang; Jie Chen; Handong Sun; Peng Chen

doi:10.1039/c5nr01519g

Nitrogen and phosphorus co-doped graphene quantum dots: Synthesis from adenosine triphosphate, optical properties, and cellular imaging

Arundithi Ananthanarayanan, Yue Wang, Parimal Routh, Mahasin Alam Sk, Aung Than, Ming Lin, Jie Zhang, Jie Chen, Handong Sun, Peng Chen^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

189 Citations (Scopus)

Abstract

Graphene quantum dots (GQDs) are emerging zero-dimensional materials promising a wide spectrum of applications, particularly, as superior fluorescent reporters for bio-imaging and optical sensing. Heteroatom doping can endow GQDs with new or improved photoluminescence properties. Here, we demonstrate a simple strategy for the synthesis of nitrogen and phosphorus co-doped GQDs from a single biomolecule precursor (adenosine triphosphate - ATP). Such ATP-GQDs exhibit high fluorescence quantum yield, strong two-photon upconversion, small molecular weight, high photostability, and good biocompatibility. Furthermore, transferrin conjugated ATP-GQDs have been used for imaging and real-time tracking of transferrin receptors in live cells.

Original language	English
Pages (from-to)	8159-8165
Number of pages	7
Journal	Nanoscale
Volume	7
Issue number	17
DOIs	https://doi.org/10.1039/c5nr01519g
Publication status	Published - May 7 2015
Externally published	Yes

Bibliographical note

Publisher Copyright:
© The Royal Society of Chemistry 2015.

ASJC Scopus Subject Areas

General Materials Science

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10.1039/c5nr01519g

Cite this

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abstract = "Graphene quantum dots (GQDs) are emerging zero-dimensional materials promising a wide spectrum of applications, particularly, as superior fluorescent reporters for bio-imaging and optical sensing. Heteroatom doping can endow GQDs with new or improved photoluminescence properties. Here, we demonstrate a simple strategy for the synthesis of nitrogen and phosphorus co-doped GQDs from a single biomolecule precursor (adenosine triphosphate - ATP). Such ATP-GQDs exhibit high fluorescence quantum yield, strong two-photon upconversion, small molecular weight, high photostability, and good biocompatibility. Furthermore, transferrin conjugated ATP-GQDs have been used for imaging and real-time tracking of transferrin receptors in live cells.",

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AU - Ananthanarayanan, Arundithi

AU - Wang, Yue

AU - Routh, Parimal

AU - Sk, Mahasin Alam

AU - Than, Aung

AU - Lin, Ming

AU - Zhang, Jie

AU - Chen, Jie

AU - Sun, Handong

AU - Chen, Peng

PY - 2015/5/7

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AB - Graphene quantum dots (GQDs) are emerging zero-dimensional materials promising a wide spectrum of applications, particularly, as superior fluorescent reporters for bio-imaging and optical sensing. Heteroatom doping can endow GQDs with new or improved photoluminescence properties. Here, we demonstrate a simple strategy for the synthesis of nitrogen and phosphorus co-doped GQDs from a single biomolecule precursor (adenosine triphosphate - ATP). Such ATP-GQDs exhibit high fluorescence quantum yield, strong two-photon upconversion, small molecular weight, high photostability, and good biocompatibility. Furthermore, transferrin conjugated ATP-GQDs have been used for imaging and real-time tracking of transferrin receptors in live cells.

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Nitrogen and phosphorus co-doped graphene quantum dots: Synthesis from adenosine triphosphate, optical properties, and cellular imaging

Abstract

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