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Volume 41
Deng, X., Feng, Y., Li, H., Du, Z., Teng, Q., & Wang, H. (2018). N-doped carbon quantum dots as fluorescent probes for highly selective and sensitive detection of Fe3+ ions. Particuology, 41, 94-100. https://doi.org/10.1016/j.partic.2017.12.009
N-doped carbon quantum dots as fluorescent probes for highly selective and sensitive detection of Fe3+ ions
Xiangyi Deng a, Yali Feng a *, Haoran Li b *, Zhuwei Du b, Qing Teng a, Hongjun Wang a
a School of Civil and Resource Engineering, University of Science and Technology Beijing, Beijing 100083, China
b State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China
10.1016/j.partic.2017.12.009
Volume 41,
December 2018,
Pages 94-100
Received 26 September 2017, Revised 1 December 2017, Accepted 13 December 2017, Available online 11 May 2018, Version of Record 1 November 2018.
E-mail:
ylfeng@ustb.edu.cn; hrli@ipe.ac.cn
Highlights
• N-doped carbon quantum dots (N-CQDs) were prepared from biomass tar and ethylenediamine.
• The prepared N-CQDs had an average size of 2.64 nm and a quantum yield of 26.1%.
• Fluorescence quenching effect of N-CQDs to Fe3+ ions provided potential means to detect Fe3+ ions.
Abstract
To investigate the effect of nitrogen on the photoluminescence properties of carbon quantum dots (CQDs), N-doped carbon quantum dots (N-CQDs) were synthesized by one-step hydrothermal treatment using biomass tar as the carbon precursor. As an inevitable organic pollutant, the unsaturated bonds in biomass tar, such as carboxylic acids, aldehydes, and aromatics, are favorable for formation of the graphitic carbon lattice. The obtained N-CQDs are spherical with an average particle size of 2.64 nm and the crystal lattice spacing is 0.25 nm, corresponding to the (100) facet of graphitic carbon. The N-CQDs emit bright blue photoluminescence under 365 nm ultraviolet light, and they have excellent water solubility and stability with a high quantum yield of 26.1%. Coordination between the functional groups on the N-CQD surface and Fe3+ ions is promoted because of the improved electronic properties and surface chemical reactivity caused by N atoms, leading to a significant fluorescence quenching effect of the N-CQDs in the presence of Fe3+ ions with high selectivity and sensitivity. There is a linear relationship between ln (F0/F) and the Fe3+ concentration in the N-CQD concentration range 0.06–1400 μmol/L with a detection limit of 60 nmol/L, showing that the N-CQDs have great potential as a fluorescent probe for Fe3+ detection.
Graphical abstract
Keywords
N-doped carbon quantum dots; Fe3+ ion detection; Fluorescence quenching; Biomass tar
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