Mechanochemically Synthesised ZnxCd1-xS Nanoparticles for Solar Energy Applications

Erika Dutková; Peter Baláz; Parviz Pourghahramani; Vladimír Balek; Anh V. Nguyen; Alexander Šatka; Jaroslav Kovac; Jana Ficeriová

doi:10.4028/www.scientific.net/JNanoR.18-19.247

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Mechanochemically Synthesised Zn_xCd_1-xS Nanoparticles for Solar Energy Applications
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HomeJournal of Nano ResearchJournal of Nano Research Vols. 18-19Mechanochemically Synthesised ZnxCd1-xS...

Mechanochemically Synthesised Zn_xCd_1-xS Nanoparticles for Solar Energy Applications

Abstract:

The mechanochemical solid-state synthesis of Zn_xCd_1-xS nanoparticles from zinc acetate, cadmium acetate and sodium sulphide in a planetary laboratory mill is described. Through changing the molar ratio of the Zn and Cd precursors, Zn_xCd1_-xS nanoparticles of different composition were prepared. Structural, surface and morphological properties were investigated by XRD, XPS, SEM and UV-VIS. Diffusion structural diagnostics was characterised by the emanation thermal analysis (ETA) results measured on heating of the samples. The cubic phase was found to be stable under mechanochemical treatment, as determined by XRD. The mixed phases were found to have ideal solution behaviours. In addition, microstructural characterisation indicated that mechanochemical treatment resulted in a structural refinement with a surface weighted crystallite size about 2 nm. The additional information of microstructure development and transport properties of the samples on heating was obtained by ETA. The calculated lattice parameters of mixed crystals linearly depend on the composition of Zn_xCd_1-xS nanoparticles. The S(2p), Zn(2p) and Cd(3d) core levels of the Zn_xCd1_-xS nanocrystallites reveal two different types of sulphur, zinc and cadmium unlike bulk CdS and ZnS. The calculated results indicate that the quantum-size effect in the nanoparticles is not negligible. The differences in the absorption edge and the emission peak position of the nanoparticles depend not only composition. Applied high-energy milling is a facile, efficient, and scalable process that does not require a solvent and can be performed under ambient conditions. Therefore, it is a promising candidate for the production of nanocrystalline materials.