Abstract
Nanoscale hybrid SiO2 and TiO2 films manifest a set of properties beneficial for use in sensors, dye lasers, amplifiers, switching devices, solar cells, and OLEDs. With increasing minuteness of these devices, an accurate and homogeneous material structure is of primary importance. We studied factors influencing the characteristics of thin hybrid film which would help to tune the quality of mesoscale patterned surfaces and to developed a self-assemblying technology based on the sol-gel method to fabricate of high-quality hybrid nanocomposite films using network-forming oxides such as silica or titania. The results obtained are expected to promote the manufacturing of 2D mesoscale surfaces with laser dyes incorporated into host materials and to open opportunities for simpler configurations of optoelectronic and sensor device with improved performances.
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Acknowledgment
The authors deeply thank Dr. M. Dvoynenko (Institute of Semiconductor Physics NASU, Kiev) for kindly help in fluorescence measurements and useful discussions.
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Telbiz, G.M., Leonenko, E., Gulbinas, G., Manoryk, P. (2018). 2D Hybrid Si-, Ti-Nanocomposites for Optoelectronic Devices Manufactured by the Sol-Gel Method. In: Petkov, P., Tsiulyanu, D., Popov, C., Kulisch, W. (eds) Advanced Nanotechnologies for Detection and Defence against CBRN Agents. NATO Science for Peace and Security Series B: Physics and Biophysics. Springer, Dordrecht. https://doi.org/10.1007/978-94-024-1298-7_4
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DOI: https://doi.org/10.1007/978-94-024-1298-7_4
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