Analytische Chemie
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Gold nanoparticles (AuNPs) can catalyze the decolorization of organic dyes in the presence of sodium borohydride (NaBH4), which can be utilized for sensitive optical signaling. Here, we monitor the catalytic reduction of a fluorescent substrate, exemplarily chosen uranine, by AuNPs serving as nanocatalysts by absorption and fluorescence spectroscopy. Dye reduction is accompanied by dramatic changes in the absorption and fluorescence properties of uranine. As proposed reaction mechanism, we assume electron transfer between uranine and NaBH4 through the AuNPs nanocatalysts which is currently investigated also by time-resolved fluorescence and detailed spectroscopic studies of the influence of pH, NaBH4, and AuNPs on these effects. As ultimate goal, a model reporter platform with colorimetric andfluorometric signaling is anticipated for the detection of different analytes by coating AuNPs with affinity ligands such as antibodies and aptamers and and special separation methods.
We report a two-step process for the immobilization of gold nanocubes (Au-NCs) on a glass surface using a combination of extraction and exchange reaction using poly (sodium 4-styrenesulfonate) (PSS) and trisodium citrate (TSC). Cetyltrimethylammonium chloride (CTAC) stabilized gold nanocubes (CTAC/Au-NCs) synthesized by a microfluidic synthesis procedure were successfully deposited on silane-modified glass substrate after extraction of excess CTAC using chloroform followed by exchange of CTAC to TSC on the surface of Au-NCs. Further, TSC/Au-NCs were found to be highly stable and suitable for microfluidic sensing of different glucose concentrations using localized surface plasmon resonance (LSPR) spectroscopy offering an improved sensitivity (126.37 nm/RIU).