Chunfeng Duan scite author profile

It was found that chloroauric acid (HAuCl(4)) could be directly reduced by the luminescent reagent luminol in aqueous solution to form gold nanoparticles (AuNPs), the size of which depended on the amount of luminol. The morphology and surface state of as-prepared AuNPs were characterized by transmission electron microscopy, UV/visible spectroscopy, X-ray photoelectron spectroscopy, FTIR spectroscopy, and thermogravimetric analysis. All results indicated that residual luminol and its oxidation product 3-aminophthalate coexisted on the surface of AuNPs through the weak covalent interaction between gold and nitrogen atoms in their amino groups. Subsequently, a luminol-capped AuNP-modified electrode was fabricated by the immobilization of AuNPs on a gold electrode by virtue of cysteine molecules and then immersion in a luminol solution. The modified electrode was characterized by cyclic voltammetry, electrochemical impedance spectroscopy, and scanning electron microscopy. The as-prepared modified electrode exhibited an electrochemiluminescence (ECL) response in alkaline aqueous solution under a double-step potential. H2O2 was found to enhance the ECL. On this basis, an ECL sensor for the detection of H2O2 was developed. The method is simple, fast, and reagent free. It is applicable to the determination of H2O2 in the range of 3x10(-7)-1x10(-3) mol L(-1) with a detection limit of 1x10(-7) mol L(-1) (S/N=3).

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Size-Dependent Inhibition and Enhancement by Gold Nanoparticles of Luminol−Ferricyanide Chemiluminescence

Duan

et al. 2007

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It was found that gold nanoparticles of small size (<5 nm) could inhibit the chemiluminescence (CL) of the luminol-ferricyanide system, whereas gold nanoparticles of large size (>10 nm) could enhance this CL, and the most intensive CL signals were obtained with 25-nm-diameter gold nanoparticles. The luminophor was identified as the excited-state 3-aminophthalate anion. The studies of UV-visible spectra, CL spectra, X-ray photoelectron spectra, effects of concentrations of luminol and ferricyanide solution, and fluorescence quenching efficiency of gold colloids were carried out to explore the CL inhibition and enhancement mechanism. The CL inhibition by gold nanoparticles of small size was supposed to originate from the competitive consumption of ferricyanide by gold nanoparticles and the relatively high quenching efficiency of the luminophor by gold nanoparticles. In contrast, the CL enhancement by gold nanoparticles of large size was ascribed to the catalysis of gold nanoparticles in the electron-transfer process during the luminol CL reaction and the relatively low quenching efficiency of the luminophor by gold nanoparticles. This work demonstrates that gold nanoparticles have the size-dependent inhibition and enhancement in the CL reaction, proposing a perspective for the investigation of new and efficient nanosized inhibitors and enhancers in CL reactions for analytical purposes.

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Relationship Between Fine-Particle Pollution and the Urban Heat Island in Beijing, China: Observational Evidence

Zheng

Ren

Wang

et al. 2018

Boundary-Layer Meteorol

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Ultrasensitive electrochemiluminescence immunosensor based on luminol functionalized gold nanoparticle labeling

Tian

Duan

Wang

et al. 2010

Biosensors and Bioelectronics

125

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Recent developments in solid-phase microextraction for on-site sampling and sample preparation

Duan

Shen

et al. 2011

TrAC Trends in Analytical Chemistry

134

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Chunfeng Duan

Synthesis, Characterization, and Electrochemiluminescence of Luminol‐Reduced Gold Nanoparticles and Their Application in a Hydrogen Peroxide Sensor

Size-Dependent Inhibition and Enhancement by Gold Nanoparticles of Luminol−Ferricyanide Chemiluminescence

Relationship Between Fine-Particle Pollution and the Urban Heat Island in Beijing, China: Observational Evidence

Ultrasensitive electrochemiluminescence immunosensor based on luminol functionalized gold nanoparticle labeling

Recent developments in solid-phase microextraction for on-site sampling and sample preparation

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