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Preparation of zinc oxide nanorods colloid from thin layers
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SYSNO ASEP 0478389 Document Type C - Proceedings Paper (int. conf.) R&D Document Type Conference Paper Title Preparation of zinc oxide nanorods colloid from thin layers Author(s) Mičová, Júlia (FZU-D)
Remeš, Zdeněk (FZU-D) RID, ORCID
Chang, Yu-Ying (FZU-D)
Neykova, Neda (FZU-D) RID, ORCIDNumber of authors 4 Source Title NANOCON 2016 8th International Conference on Nanomaterials - Research & Application. Conference proceedings. - Ostrava : TANGER Ltd., 2017 - ISBN 978-80-87294-71-0 Pages s. 127-132 Number of pages 6 s. Publication form Print - P Action NANOCON 2016. International Conference on Nanomaterials - Research and Application /8./ Event date 19.10.2016 - 21.10.2016 VEvent location Brno Country CZ - Czech Republic Event type WRD Language eng - English Country CZ - Czech Republic Keywords ZnO ; method hydrothermal growth ; thin layer ; nanorods Subject RIV BM - Solid Matter Physics ; Magnetism OECD category Condensed matter physics (including formerly solid state physics, supercond.) R&D Projects GC16-10429J GA ČR - Czech Science Foundation (CSF) Institutional support FZU-D - RVO:68378271 UT WOS 000410656100021 EID SCOPUS 85017209221 Annotation The interest in ZnO (zinc oxide) nanoparticles is increasing due to low cost of their processing as well as the ability of fabricating ZnO nanostructures with controllable morphology such as size, shape and orientation. Our choice of method of the preparation of the nanostructured thin ZnO layers is the hydrothermal growth of ZnO nanorods on glass substrates coated by the nucleation layer deposited by the reactive magnetron sputtering. We have developed and optimized conditions of the thin layer growth with controllable dimensions of nanorods followed by the ultrasound peeling. The colloid of ZnO nanorods was characterized by measuring the size of particles using the dynamic light scattering (DLS) and the scanning electron microscopy (SEM). We found that the dynamic light scattering (DLS) can’t be directly used for size evaluation of ZnO nanorods due to their non- sperical shape.
Workplace Institute of Physics Contact Kristina Potocká, potocka@fzu.cz, Tel.: 220 318 579 Year of Publishing 2018
Number of the records: 1