Co sub(3)O sub(4)/TiO sub(2) heterostructures obtained by hybrid method

High surface-to-volume ratio Co sub(3)O sub(4)/TiO sub(2 ) heterojunctions were fabricated by combining different methods. Atomic layer deposition (ALD) and a photochemical method were used to coat polystyrene (PS) 3D-Direct Opal (3D-DO) structures on conductive ITO substrates. Firstly, 3D-DO of PS...

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Veröffentlicht in:	Physica status solidi. A, Applications and materials science Applications and materials science, 2015-07, Vol.212 (7), p.1588-1598
Hauptverfasser:	El Habra, N, Visentin, F, Gerbasi, R, Favaro, M, Natile, M M, Colazzo, L, Sambi, M
Format:	Artikel
Sprache:	eng
Schlagworte:	Coating Crystallization Heterostructures Nanospheres Photochemical Polystyrene resins Self assembly Titanium dioxide
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container_title	Physica status solidi. A, Applications and materials science
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creator	El Habra, N Visentin, F Gerbasi, R Favaro, M Natile, M M Colazzo, L Sambi, M
description	High surface-to-volume ratio Co sub(3)O sub(4)/TiO sub(2 ) heterojunctions were fabricated by combining different methods. Atomic layer deposition (ALD) and a photochemical method were used to coat polystyrene (PS) 3D-Direct Opal (3D-DO) structures on conductive ITO substrates. Firstly, 3D-DO of PS were crystallized on ITO substrates to form the high surface-to-volume ratio template via a self-assembly method. A low-temperature ALD TiO sub(2) film was infiltrated onto the PS opal structure. Then, the PS template was removed by a thermal treatment in air at 450 degree C for 5h. Hollow anatase phase nanospheres were obtained, crystallized in a face centered cubic (FCC) lattice with the (111) plane oriented parallel to the substrate surface. Finally, the hollow TiO sub(2) nanospheres were coated with Co sub(3)O sub(4) via a photochemical method. This ordered 3D nanostructure with designed morphology may find applications as surface-enhanced materials for photovoltaic devices. TiO sub(2) hollow nanospheres obtained via low-pressure ALD (a) and Co sub(3)O sub(4)/TiO sub(2 ) heterostructure (scanned region: 1.5 mu m) (b).
doi_str_mv	10.1002/pssa.201532260
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Atomic layer deposition (ALD) and a photochemical method were used to coat polystyrene (PS) 3D-Direct Opal (3D-DO) structures on conductive ITO substrates. Firstly, 3D-DO of PS were crystallized on ITO substrates to form the high surface-to-volume ratio template via a self-assembly method. A low-temperature ALD TiO sub(2) film was infiltrated onto the PS opal structure. Then, the PS template was removed by a thermal treatment in air at 450 degree C for 5h. Hollow anatase phase nanospheres were obtained, crystallized in a face centered cubic (FCC) lattice with the (111) plane oriented parallel to the substrate surface. Finally, the hollow TiO sub(2) nanospheres were coated with Co sub(3)O sub(4) via a photochemical method. This ordered 3D nanostructure with designed morphology may find applications as surface-enhanced materials for photovoltaic devices. 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A, Applications and materials science</title><description>High surface-to-volume ratio Co sub(3)O sub(4)/TiO sub(2 ) heterojunctions were fabricated by combining different methods. Atomic layer deposition (ALD) and a photochemical method were used to coat polystyrene (PS) 3D-Direct Opal (3D-DO) structures on conductive ITO substrates. Firstly, 3D-DO of PS were crystallized on ITO substrates to form the high surface-to-volume ratio template via a self-assembly method. A low-temperature ALD TiO sub(2) film was infiltrated onto the PS opal structure. Then, the PS template was removed by a thermal treatment in air at 450 degree C for 5h. Hollow anatase phase nanospheres were obtained, crystallized in a face centered cubic (FCC) lattice with the (111) plane oriented parallel to the substrate surface. Finally, the hollow TiO sub(2) nanospheres were coated with Co sub(3)O sub(4) via a photochemical method. 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Atomic layer deposition (ALD) and a photochemical method were used to coat polystyrene (PS) 3D-Direct Opal (3D-DO) structures on conductive ITO substrates. Firstly, 3D-DO of PS were crystallized on ITO substrates to form the high surface-to-volume ratio template via a self-assembly method. A low-temperature ALD TiO sub(2) film was infiltrated onto the PS opal structure. Then, the PS template was removed by a thermal treatment in air at 450 degree C for 5h. Hollow anatase phase nanospheres were obtained, crystallized in a face centered cubic (FCC) lattice with the (111) plane oriented parallel to the substrate surface. Finally, the hollow TiO sub(2) nanospheres were coated with Co sub(3)O sub(4) via a photochemical method. This ordered 3D nanostructure with designed morphology may find applications as surface-enhanced materials for photovoltaic devices. 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source	Wiley Online Library Journals Frontfile Complete
subjects	Coating Crystallization Heterostructures Nanospheres Photochemical Polystyrene resins Self assembly Titanium dioxide
title	Co sub(3)O sub(4)/TiO sub(2) heterostructures obtained by hybrid method
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