2 article(s) from Djurišić, Aleksandra B
- Full Research Paper
- Published 04 Apr 2018
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Figure 1: The experimental setup of the scanning confocal microscope used for investigating TiO2 defects.
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Figure 2: Representative 100 × 100 μm2 confocal scans of TiO2 morphologies. E-beam deposited thin films: (a) ...
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Figure 3: 10 × 10 μm2 confocal scans of two single-photon emitters (a) defect D1 and (b) defect D2 found on t...
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Figure 4: Characterisation results of defect D1, shown in Figure 3a, found in the a-450 °C-TiO2 sample. (a) Normalised...
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Figure 5: Characterisation results of defect D2. (a) The excited-state (RLT) and non-radiative (NRLT) lifetim...
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Figure 6: Characterisation results of a defect found in the sample of TiO2 anatase nanopowder and IPA. (a) 10...
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- Full Research Paper
- Published 21 Mar 2013
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Figure 1: Schematic drawing of the PC-AFM setup. The sample in the present configuration was illuminated from...
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Figure 2: (a) 5 μm × 5 μm intermittent contact mode AFM image and SEM micrograph (inset) of ZnO nanorods grow...
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Figure 3: Current–voltage characteristics of dark (green curve, dashed) and illuminated state (red curve, sol...
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Figure 4: (a) Photocurrent rise and relaxation during the first cycle of the experiment. The bias of −10 V wa...
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Figure 5: (a) The photoconductivity spectral response from a single upright standing ZnO NR recorded using a ...
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Figure 6: Schematic energy-level diagram of ZnO taking into account the existence of theoretically predicted [42]...
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