Abstract
The data on nanoflower-like nanostructures are generalized for several groups of inorganic compounds (carbon, elemental metals, their alloys and compounds with the elements of V and VI Groups of the Periodic Table), as well as for a few coordination and organic compounds. Their synthetic techniques include oxidation of elemental metals, reduction of metal salts, thermal decomposition of relatively unstable compounds, or electrochemical route. Some current and possible applications of nanoflowers are noted.
Keywords: Nanoflowers, deposition, oxidation, reduction, hydrothermal reaction, condensation, growth
Recent Patents on Nanotechnology
Title: A Review for Synthesis of Nanoflowers
Volume: 2 Issue: 3
Author(s): Boris I. Kharisov
Affiliation:
Keywords: Nanoflowers, deposition, oxidation, reduction, hydrothermal reaction, condensation, growth
Abstract: The data on nanoflower-like nanostructures are generalized for several groups of inorganic compounds (carbon, elemental metals, their alloys and compounds with the elements of V and VI Groups of the Periodic Table), as well as for a few coordination and organic compounds. Their synthetic techniques include oxidation of elemental metals, reduction of metal salts, thermal decomposition of relatively unstable compounds, or electrochemical route. Some current and possible applications of nanoflowers are noted.
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Cite this article as:
Kharisov I. Boris, A Review for Synthesis of Nanoflowers, Recent Patents on Nanotechnology 2008; 2 (3) . https://dx.doi.org/10.2174/187221008786369651
DOI https://dx.doi.org/10.2174/187221008786369651 |
Print ISSN 1872-2105 |
Publisher Name Bentham Science Publisher |
Online ISSN 2212-4020 |
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