2016
DOI: 10.1016/j.jpowsour.2016.06.033
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Hierarchical growth of TiO2 nanosheets on anodic ZnO nanowires for high efficiency dye-sensitized solar cells

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Cited by 20 publications
(7 citation statements)
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“…Nanostructured Zn/ZnO for PV and PEC applications was obtained in bicarbonate media under low voltage (5–10 V) for shorter times (10–30 min) [ 73 , 74 ]. Heat treatment is required to crystallize the oxide (300 °C for 1 h) [ 75 ]. Zn/ZnO-hexagonal pyramid array for a Zn-ion battery anode was created by Kim et al [ 76 ] by applying pulsed-galvanostatic anodization in an aqueous solution containing NH 4 Cl and H 2 O 2 .…”
Section: General Aspects Of Anodic Oxide Synthesis For Energy Applmentioning
confidence: 99%
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“…Nanostructured Zn/ZnO for PV and PEC applications was obtained in bicarbonate media under low voltage (5–10 V) for shorter times (10–30 min) [ 73 , 74 ]. Heat treatment is required to crystallize the oxide (300 °C for 1 h) [ 75 ]. Zn/ZnO-hexagonal pyramid array for a Zn-ion battery anode was created by Kim et al [ 76 ] by applying pulsed-galvanostatic anodization in an aqueous solution containing NH 4 Cl and H 2 O 2 .…”
Section: General Aspects Of Anodic Oxide Synthesis For Energy Applmentioning
confidence: 99%
“…The use of hierarchical nanostructures of the core-shell type also allows one to optimize the electron transport provided by the nanowire core and obtain a high surface area, chemical stability, and compatibility with several dyes and electrolytes [ 75 ]. Compared with conventional DSSC devices, Millers et al [ 75 ] observed a 29% higher conversion efficiency when a ZnO@TiO 2 photoelectrode was employed. In this case, the anodization technique was used to produce ZnO nanowires using Zn foil as a precursor.…”
Section: Photovoltaic Devices For Energy Conversion: Solar Cellsmentioning
confidence: 99%
“…High PCE of 6.31% was attributed to NH 3 treatment, which was believed to create ZnO shell on SnO 2 nanoparticles [74]. A hierarchical core-shell ZnO NW with TiO 2 nanosheets resulted in an outstanding performance with a solid-state electrolyte, showing the conversion efficiencies of up to 7.46% [75].…”
Section: Nanowires -New Insightsmentioning
confidence: 99%
“…10,18,38−42 A core− shell heterostructure, typically forming from a one-dimensional structure, offers a large interfacial area for rapid charge carrier separation, short diffusion length, better absorption of light, improved charge carrier transport, and collection efficiency. 43,44 There are some examples of core−shell heterostructures used for solar energy-related applications, which include ZnO-Al 2 O 3 and ZnO-TiO 2 core−shell NWs in DSCs, 45 ZnO and SnO 2 surrounded by a TiO 2 nanosheet shell in DSSCs, 41,46 p-type Fe 2 O 3 -based photocathode with a multiheterojunction and TiO 2 coating, 47 ZnO-Fe 2 O 3 core−shell NWAs, 48 1D ZnO-BiVO 4 heterojunction, 49 Si-ZnO core−shell NWAs, 50 ZnO-TiO 2 core−shell NWs, 51,52 and ZnO-TiO 2 core-brush nanostructures 53 for photocatalytic/PEC water splitting applications. Therefore, suitable, well-ordered development of a 1D core− shell structure with ideal semiconductors is key to amending the PEC properties.…”
Section: ■ Introductionmentioning
confidence: 99%