Issue 24, 2019

One-pot green and simple synthesis of actinian nickel-doped carbon nanoflowers for ultrasensitive sensing of quercetin

Abstract

In this contribution, a one-pot method possessing the advantages of easy preparation, rapidness, efficiency and environmental friendliness has been developed for the first time for the facile synthesis of highly fluorescent actinian nickel-doped carbon nanoflowers (Ni-CNFWs) by using nickel(II)acetylacetonate as a metal–carbon source. Various characterization studies indicate that metal nickel atoms have been successfully doped into carbon nanoflower frameworks with a weight percentage of 1.46 wt%. The Ni-CNFWs showed a “shell–core” actinian structure with ∼400 nm diameter and highly efficient fluorescence quenching ability in the presence of quercetin (Qut) due to the formed Meisenheimer complexes via the conjugation effect of p, π-electrons between Ni-CNFWs and Qut, which allowed the analysis of Qut in a very facile method. Under the optimal conditions, the decreased fluorescence of Ni-CNFWs showed a good linear relationship with the concentration of Qut ranging from 0.5 to 300.0 μM, and the limit of detection was 0.137 μM (3σ/k). Finally, the content of Qut in bovine serum was successfully detected with the novel on–off sensor, and the recoveries were 97.3–101.9%, which indicate that the constructed on–off sensor has a high selectivity and accuracy.

Graphical abstract: One-pot green and simple synthesis of actinian nickel-doped carbon nanoflowers for ultrasensitive sensing of quercetin

Supplementary files

Article information

Article type
Paper
Submitted
25 Sep 2019
Accepted
14 Oct 2019
First published
14 Oct 2019

Analyst, 2019,144, 7283-7289

One-pot green and simple synthesis of actinian nickel-doped carbon nanoflowers for ultrasensitive sensing of quercetin

Y. Gao, X. Jin, F. Kong, Z. Wang and W. Wang, Analyst, 2019, 144, 7283 DOI: 10.1039/C9AN01907C

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