Yunyun Qiao scite author profile

We report a novel and environmentally friendly fluorescent probe for detecting the cyanide ion (CN(-)) using L-amino acid oxidase (LAAOx)-protected Au nanoclusters (LAAOx@AuNCs) with red emission. The fluorescence-based sensing behaviour of LAAOx@AuNCs towards anions was investigated in buffered aqueous media. Among the anions studied, CN(-) was found to effectively quench the fluorescence emission of AuNCs based on CN(-) induced Au core decomposition. Excellent sensitivity and selectivity toward the detection of CN(-) in aqueous solution were observed. The CN(-) detection limit was determined to be approximately 180 nM, which is 15 times lower than the maximum level (2700 nM) of CN(-) in drinking water permitted by the World Health Organization (WHO). A linear relationship between the fluorescence intensity and CN(-) concentration was observed in two ranges of CN(-) concentration, including 3.2 × 10(-6) to 3.4 × 10(-5) mol L(-1) and 3.81 × 10(-5) to 1.04 × 10(-4) mol L(-1). The high sensitivity and selectivity to CN(-) among the 17 types of anions make the AuNCs good candidates for use in fluorescent nanoprobes of CN(-).

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Water-soluble gold nanoclusters-based fluorescence probe for highly selective and sensitive detection of Hg2+

Qiao

Zhang

et al. 2016

Sensors and Actuators B: Chemical

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A reversible fluorescent pH-sensing system based on the one-pot synthesis of natural silk fibroin-capped copper nanoclusters

Zhang

et al. 2016

J. Mater. Chem. C

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Yunyun Qiao

Green synthesis of fluorescent copper nanoclusters for reversible pH-sensors

Highly selective and sensitive nanoprobes for cyanide based on gold nanoclusters with red fluorescence emission

Water-soluble gold nanoclusters-based fluorescence probe for highly selective and sensitive detection of Hg2+

A reversible fluorescent pH-sensing system based on the one-pot synthesis of natural silk fibroin-capped copper nanoclusters

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