Mono- and multilayered opalline superlattices: application to nanotechnology of 2D ordered array of nanoobjects and 3D metalattices

We consider the development of a prospective way for fabrication of well-ordered 2D array of epitaxial nanodots and quasi-3D metalattices with spatially ordered particles. Mono- and multilayered opalline superlattices were used as an inorganic nanomask for fabrication of 2D ordered array of nanoobje...

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Veröffentlicht in:	Applied surface science 2004-07, Vol.234 (1), p.93-101
Hauptverfasser:	Bozhko, S.I, Chaika, A.N, Emelchenko, G.A, Masalov, V.M, Ionov, A.M, Gruzintsev, A.N, Mikhailov, G.M, Medvedev, B.K
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Schlagworte:	Electron and optical spectroscopy methods Nanotechnology Quasi-3D metalattices
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container_end_page	101
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container_title	Applied surface science
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creator	Bozhko, S.I Chaika, A.N Emelchenko, G.A Masalov, V.M Ionov, A.M Gruzintsev, A.N Mikhailov, G.M Medvedev, B.K
description	We consider the development of a prospective way for fabrication of well-ordered 2D array of epitaxial nanodots and quasi-3D metalattices with spatially ordered particles. Mono- and multilayered opalline superlattices were used as an inorganic nanomask for fabrication of 2D ordered array of nanoobjects and metalattices composed from metals and semiconductors by deposition of different materials onto the substrate. With the help of developed nanotechnology, 2D and quasi-3D arrays of semiconductors (ZnO), metal nanodots (Ni, Ti) and nanoobjects with characteristic size of 100–300 nm were fabricated. Their structure and properties were investigated by SPM, electron and optical spectroscopy methods. Results and perspectives are discussed and analysed.
doi_str_mv	10.1016/j.apsusc.2004.05.263
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title	Mono- and multilayered opalline superlattices: application to nanotechnology of 2D ordered array of nanoobjects and 3D metalattices
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