Versatile Fabrication of Complex Shaped Metal Oxide Nano-Microstructures and Their Interconnected Networks for Multifunctional Applications
Metal oxide nano-microstructures are applied in photocatalytic surfaces, sensors or biomedical engineering, proving the versatile utilization of nanotechnology. However, more complex or interconnected nano-microstructures are still seldomly me...
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doaj-cdf625fb08084d9eb7151e54579a7b0e2021-02-03T00:52:32ZengHosokawa Powder Technology FoundationKONA Powder and Particle Journal0288-45342187-55372014-02-013109211010.14356/kona.2014015konaVersatile Fabrication of Complex Shaped Metal Oxide Nano-Microstructures and Their Interconnected Networks for Multifunctional ApplicationsYogendra Kumar Mishra0Sören Kaps1Arnim Schuchardt2Ingo Paulowicz3Xin Jin4Dawit Gedamu5Sebastian Wille6Oleg Lupan7Rainer Adelung8Functional Nanomaterials, Institute for Materials Science, University of KielFunctional Nanomaterials, Institute for Materials Science, University of KielFunctional Nanomaterials, Institute for Materials Science, University of KielFunctional Nanomaterials, Institute for Materials Science, University of KielFunctional Nanomaterials, Institute for Materials Science, University of KielFunctional Nanomaterials, Institute for Materials Science, University of KielFunctional Nanomaterials, Institute for Materials Science, University of KielFunctional Nanomaterials, Institute for Materials Science, University of KielFunctional Nanomaterials, Institute for Materials Science, University of KielMetal oxide nano-microstructures are applied in photocatalytic surfaces, sensors or biomedical engineering, proving the versatile utilization of nanotechnology. However, more complex or interconnected nano-microstructures are still seldomly met in practical applications, although they are of higher interest, due to enhanced structural, electronic and piezoelectric properties, as well as several complex biomedical effects, like antiviral characteristics. Here we attempt to present an overview of the novel, facile and cost-efficient flame transport synthesis (FTS) which allows controlled growth of different nano-microstructures and their interconnected networks in a scalable process. Various morphologies of nano-microstructures synthesized by FTS and its variants are demonstrated. These nano-microstructures have shown potential applications in different fields and the most relevant are reviewed here. Fabrication, growth mechanisms and properties of such large and highly porous three-dimensional (3D) interconnected networks of metal oxides (ZnO, SnO2, Fe2O3) nano-microstructures including carbon based aerographite material using FTS approaches are discussed along with their potential applications.https://www.jstage.jst.go.jp/article/kona/31/0/31_2014015/_html/-char/enflame transport synthesismetal oxideznosno2fe2o3nano-microstructuresnanorodsnanowiresinterconnected tetrapods networksmultifunctional applicationsaerographite |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Yogendra Kumar Mishra Sören Kaps Arnim Schuchardt Ingo Paulowicz Xin Jin Dawit Gedamu Sebastian Wille Oleg Lupan Rainer Adelung |
spellingShingle |
Yogendra Kumar Mishra Sören Kaps Arnim Schuchardt Ingo Paulowicz Xin Jin Dawit Gedamu Sebastian Wille Oleg Lupan Rainer Adelung Versatile Fabrication of Complex Shaped Metal Oxide Nano-Microstructures and Their Interconnected Networks for Multifunctional Applications KONA Powder and Particle Journal flame transport synthesis metal oxide zno sno2 fe2o3 nano-microstructures nanorods nanowires interconnected tetrapods networks multifunctional applications aerographite |
author_facet |
Yogendra Kumar Mishra Sören Kaps Arnim Schuchardt Ingo Paulowicz Xin Jin Dawit Gedamu Sebastian Wille Oleg Lupan Rainer Adelung |
author_sort |
Yogendra Kumar Mishra |
title |
Versatile Fabrication of Complex Shaped Metal Oxide Nano-Microstructures and Their Interconnected Networks for Multifunctional Applications |
title_short |
Versatile Fabrication of Complex Shaped Metal Oxide Nano-Microstructures and Their Interconnected Networks for Multifunctional Applications |
title_full |
Versatile Fabrication of Complex Shaped Metal Oxide Nano-Microstructures and Their Interconnected Networks for Multifunctional Applications |
title_fullStr |
Versatile Fabrication of Complex Shaped Metal Oxide Nano-Microstructures and Their Interconnected Networks for Multifunctional Applications |
title_full_unstemmed |
Versatile Fabrication of Complex Shaped Metal Oxide Nano-Microstructures and Their Interconnected Networks for Multifunctional Applications |
title_sort |
versatile fabrication of complex shaped metal oxide nano-microstructures and their interconnected networks for multifunctional applications |
publisher |
Hosokawa Powder Technology Foundation |
series |
KONA Powder and Particle Journal |
issn |
0288-4534 2187-5537 |
publishDate |
2014-02-01 |
description |
Metal oxide nano-microstructures are applied in photocatalytic surfaces, sensors or biomedical engineering, proving the versatile utilization of nanotechnology. However, more complex or interconnected nano-microstructures are still seldomly met in practical applications, although they are of higher interest, due to enhanced structural, electronic and piezoelectric properties, as well as several complex biomedical effects, like antiviral characteristics. Here we attempt to present an overview of the novel, facile and cost-efficient flame transport synthesis (FTS) which allows controlled growth of different nano-microstructures and their interconnected networks in a scalable process. Various morphologies of nano-microstructures synthesized by FTS and its variants are demonstrated. These nano-microstructures have shown potential applications in different fields and the most relevant are reviewed here. Fabrication, growth mechanisms and properties of such large and highly porous three-dimensional (3D) interconnected networks of metal oxides (ZnO, SnO2, Fe2O3) nano-microstructures including carbon based aerographite material using FTS approaches are discussed along with their potential applications. |
topic |
flame transport synthesis metal oxide zno sno2 fe2o3 nano-microstructures nanorods nanowires interconnected tetrapods networks multifunctional applications aerographite |
url |
https://www.jstage.jst.go.jp/article/kona/31/0/31_2014015/_html/-char/en |
work_keys_str_mv |
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1724290078109335552 |