2020
DOI: 10.1088/2632-959x/ab970c
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Self-organized and self-assembled TiO2 nanosheets and nanobowls on TiO2 nanocavities by electrochemical anodization and their properties

Abstract: In this research work, we prepared for the first time TiO 2 nanosheets and nanobowls assembled on an arrangement of TiO 2 nanocavities, and studied their morphological, optical, and structural properties. The assembled nanostructures were synthesized by a fast two-step electrochemical anodization using fluorides and ethylene glycol. By Field Emission Scanning Electron Microscopy, we showed that these nanostructures have a morphology well organized and ordered with a homogeneous distribution. Also, other charac… Show more

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Cited by 13 publications
(7 citation statements)
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“…Such a phenomenon may be due to the reduced periodicity and changed geometries in the quasi-photonic crystal-like structure. A similar optical phenomenon was observed in the previous report [45]. A geometrical variance in TiO 2 periodic nanocavities resulted in the shift of the interference fringes in the optical spectrum, similar to the shift we observed in the absorption peak.…”
Section: Optical Tunability Of Melil For Sers Fabricationsupporting
confidence: 91%
“…Such a phenomenon may be due to the reduced periodicity and changed geometries in the quasi-photonic crystal-like structure. A similar optical phenomenon was observed in the previous report [45]. A geometrical variance in TiO 2 periodic nanocavities resulted in the shift of the interference fringes in the optical spectrum, similar to the shift we observed in the absorption peak.…”
Section: Optical Tunability Of Melil For Sers Fabricationsupporting
confidence: 91%
“…Our calculated photoluminescence peak is at 694 nm in this work. Furthermore, the calculated phonon-side band exhibits very similar line shape and its energy span (the half-value width is calculated to be 115 nm) with experiments [4,6,13,[32][33][34][35]. Therefore, we discover that the origin of the red photoluminescence is V Cu…”
supporting
confidence: 66%
“…These results have been supported by Photoluminescence (PL) measurements as seen in figure 4. The main defect states of nanostructured TiO 2 are self-trapped excitons (STE), single ionized oxygen vacancies (Vo * ), doubly ionized oxygen vacancies (Vo ** ), and excited states of Ti 3+ at 416 nm, 443 nm, 531 nm and 802 nm, respectively [65][66][67][68][69][70]. As can be seen form the figure 4 we observed excitation at 416 nm, 443 nm, 531 nm referring to the oxygen vacancies after thermal treatment under vacuum conditions.…”
Section: Xps Resultsmentioning
confidence: 99%