Issue 34, 2014

Revealing the tunable photoluminescence properties of graphene quantum dots

Abstract

Graphene quantum dots (GQDs) are a new class of fluorescent reporters promising various novel applications such as bio-imaging, optical sensing and photovoltaics. They have recently attracted enormous interest because of their extraordinary and tunable optical, electrical, chemical and structural properties. However, the widespread use of GQDs is hindered by the poor understanding of their photoluminescence (PL) mechanisms. Using density-functional theory (DFT) and time-dependent DFT calculations, we reveal that the PL of a GQD can be sensitively tuned by its size, edge configuration, shape, attached chemical functionalities, heteroatom doping and defects. In addition, it is discovered that the PL of a large GQD consisting of heterogeneously hybridized carbon network is essentially determined by the embedded small sp2 clusters isolated by sp3 carbons. This study not only provides an explanation to the previous experimental observations but also provides insightful guidance to develop methods for the controllable synthesis and engineering of GQDs.

Graphical abstract: Revealing the tunable photoluminescence properties of graphene quantum dots

Supplementary files

Article information

Article type
Communication
Submitted
06 ⵢⵓⵏ 2014
Accepted
02 ⵢⵓⵍ 2014
First published
02 ⵢⵓⵍ 2014

J. Mater. Chem. C, 2014,2, 6954-6960

Revealing the tunable photoluminescence properties of graphene quantum dots

M. A. Sk, A. Ananthanarayanan, L. Huang, K. H. Lim and P. Chen, J. Mater. Chem. C, 2014, 2, 6954 DOI: 10.1039/C4TC01191K

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