Novel synthesis and application of FePt/CuInS2 magneto-optical core-shell nanostructures in copper ions sensing

- FePt-CuInS2 core-shell nanostructures were successfully synthesized using polyol process.
- Temperature and field dependence magnetization behavior of as-synthesized FePt and FePt/CuInS2 showed super paramagnetic and ferromagnetic behavior at 300 K.
- A glassy carbon electrode was fabricated with FePt/CuInS2 core shell NSs and MWCNT.
- By FePt/CuInS2 core-shell/MWCNT@GCE, a linear range from 12.5-575.0 nmol L−1 Cu+2 with a detection limit of 0.14 nmol L−1 was obtained.

In this study, the FePt core, CuInS2 shell and FePt/CuInS2 core-shell nanostructures were successfully synthesized using Polyol process. Temperature and field dependence magnetization behavior of as-synthesized FePt and FePt/CuInS2 showed super paramagnetic and ferromagnetic behavior at 300 K, respectively. The blocking temperature (TB) estimating by the peak in ZFC curve was about 26 K for FePt and this peak was absences for FePt/CuInS2 NSs, which indicates ferromagnetic regime. To design novel sensor for Cu+2 ions, a glassy carbon electrode was fabricated with FePt/CuInS2 core shell NSs and multi walled carbon nanotubes (MWCNT). Using cyclic voltammetry, the electrochemical behavior of Cu+2 ions was studied at FePt/CuInS2 core-shell/MWCNT@GCE and compared with responses on bare GCE and MWCNT@GCE. Finally, this electrode was used for construction of the calibration curve in linear range from 12.5-575.0 nmol L−1 Cu+2 with a detection limit of 0.14 nmol L−1.

105Designing FePt-CuInS2 core-shell NSs/glassy carbon electrode to sense trace amounts of copper (II) ions.