Affiliation:
1. Lodz University of Technology
Abstract
Among the large family of metallic oxides, there is a considerable group possessing excellent semiconducting properties. What follows, they are promising materials for applications in the field of optoelectronics and photonics. Thanks to the development of nanotechnology in the last few decades, it is now possible to manufacture a great variety of different nanostructures. By controlling their size, shape, composition and
crystallinity, one can influence such properties as band gap, absorption properties, surface to volume ratio, conductivity, and, as a consequence, tune the material for the chosen application. The following article reviews the research conducted in the field of application of the metallic oxide nanoparticles, especially ZnO, TiO2 and ITO (Indium-Tin Oxide), in such branches of optoelectronics as solid-state lightning, photodetectors, solar-cells and transparent conducting layers.
Publisher
Research and Innovation Centre Pro-Akademia
Reference55 articles.
1. Portier, J. et al., Thermodynamic correlations and band gap calculations in metal oxides (2004) Progress in Solid State Chemistry, 32 (3-4), pp. 207-217
2. Pugazhenthi, I. et al., UV and corrosion protective behavior of polymer hybrid coating on mild steel, 2018) Journal of Applied Polymer Science, 135 (16), art. no. 46175
3. Wang, H. et al., Low thermal conductivity of monolayer ZnO and its anomalous temperaturę dependence, (2017), Physical Chemistry Chemical Physics, 19, pp. 12882-12889
4. Pandiyarasan, V. et al., Morphology dependent thermal conductivity of ZnO nanostructures prepared via a green approach, (2017), Journal of alloys and compounds, 695, pp. 888-894
5. Janotti, A. et al., Fundamentals of zinc oxide as a semiconductor, (2009) Reports on Progress in Physics, 72 (12), art. no. 126501
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