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The micro- and nanocomposite particles of the Cu–TiO2 system are synthesized using the laser scanning of a heliumlike film. A model of nanostructure formation on a dielectric surface is proposed.
The method of laser-induced metal deposition was applied to synthesize nano- and microstructured metal electrodes for non-enzymatic glucose and hydrogen peroxide sensing. These electrodes were characterized by SEM, EDX, SIMS, XRD and EIS. Copper electrodes have a linear dependence of the current-concentration in the range of 10–100 μmol/L for hydrogen peroxide and 0.6–3.0 mmol/L for D-glucose.
The laser-induced metal deposition technique attracts a great interest not only due to its application in microelectronics and manufacturing of electrochemical sensors but also due to its possible implementation for in situ laser synthesis of nanostructured metal catalysts directly in the reaction mixture. In turn, the synthesized nano-sized metal structures may take part in organic catalysis using...
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