Direct Deposition of Micron-Thick Aligned Ceramic TiO2 Nanofibrous Film on FTOs by Double-Needle Electrospinning Using Air-Turbulence Shielded Disc Collector

Direct Deposition of Micron-Thick Aligned Ceramic TiO2 Nanofibrous Film on FTOs by Double-Needle Electrospinning Using Air-Turbulence Shielded Disc Collector

One-dimensional (1D) metal oxides, typically nanowires and nanorods, have unique electronic and optical properties due to quantum phenomena that find applications in modern energy and electronic devices. We present here the electrospinning method that produces the aligned TiO2 nanofibres directly on...

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Main Authors: T. Krishnamoorthy, V. Thavasi, V. Akshara, A. Senthil Kumar, D. Pliszka, S. G. Mhaisalkar, S. Ramakrishna
Format: Article
Language:English
Published: Hindawi Limited 2011-01-01
Series:Journal of Nanomaterials
Online Access:http://dx.doi.org/10.1155/2011/739241
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spelling doaj-e39284a177344530b617f22de08434782020-11-24T22:57:21ZengHindawi LimitedJournal of Nanomaterials1687-41101687-41292011-01-01201110.1155/2011/739241739241Direct Deposition of Micron-Thick Aligned Ceramic TiO2 Nanofibrous Film on FTOs by Double-Needle Electrospinning Using Air-Turbulence Shielded Disc CollectorT. Krishnamoorthy0V. Thavasi1V. Akshara2A. Senthil Kumar3D. Pliszka4S. G. Mhaisalkar5S. Ramakrishna6School of Materials Science and Engineering, Nanyang Technological University, 50 Nanyang Avenue, 639798, SingaporeNUS Nanoscience and Nanotechnology Initiative (NUSNNI), Faculty of Engineering, National University of Singapore, 117576, SingaporeAmity Institute of Nanotechnology, Amity University, Sector-125, Noida 201301, IndiaDepartment of Mechanical Engineering, National University of Singapore, Engineering Drive 3, 117576, SingaporeNUS Nanoscience and Nanotechnology Initiative (NUSNNI), Faculty of Engineering, National University of Singapore, 117576, SingaporeSchool of Materials Science and Engineering, Nanyang Technological University, 50 Nanyang Avenue, 639798, SingaporeNUS Nanoscience and Nanotechnology Initiative (NUSNNI), Faculty of Engineering, National University of Singapore, 117576, SingaporeOne-dimensional (1D) metal oxides, typically nanowires and nanorods, have unique electronic and optical properties due to quantum phenomena that find applications in modern energy and electronic devices. We present here the electrospinning method that produces the aligned TiO2 nanofibres directly on the fluorine-doped tin oxide (FTO) substrates mounted rotating disc collector. The aligned TiO2 ceramic nanofibres mat of 6 μm thickness is achieved in 4 h using a nonconductive enclosed-air-shield with air-hood design over the FTO mounted rotating disc collector. The aligned TiO2 nanofibers are found to retain its integrity and binding on FTO surface even after sintering at 500°C. SIMON 8 modeling package is used to determine the behaviour of the charged polymer/TiO2 jet when single and double needles are used for electrospinning process. The simulation study reveals that the repulsive force of the charged fibers from the double needle exerts stronger electric field distribution along the flow of stream that results in the reduction of the fibers diameter, which is about 28 nm than that of using single-needle system.http://dx.doi.org/10.1155/2011/739241
collection DOAJ
language English
format Article
sources DOAJ
author T. Krishnamoorthy
V. Thavasi
V. Akshara
A. Senthil Kumar
D. Pliszka
S. G. Mhaisalkar
S. Ramakrishna
spellingShingle T. Krishnamoorthy
V. Thavasi
V. Akshara
A. Senthil Kumar
D. Pliszka
S. G. Mhaisalkar
S. Ramakrishna
Direct Deposition of Micron-Thick Aligned Ceramic TiO2 Nanofibrous Film on FTOs by Double-Needle Electrospinning Using Air-Turbulence Shielded Disc Collector
Journal of Nanomaterials
author_facet T. Krishnamoorthy
V. Thavasi
V. Akshara
A. Senthil Kumar
D. Pliszka
S. G. Mhaisalkar
S. Ramakrishna
author_sort T. Krishnamoorthy
title Direct Deposition of Micron-Thick Aligned Ceramic TiO2 Nanofibrous Film on FTOs by Double-Needle Electrospinning Using Air-Turbulence Shielded Disc Collector
title_short Direct Deposition of Micron-Thick Aligned Ceramic TiO2 Nanofibrous Film on FTOs by Double-Needle Electrospinning Using Air-Turbulence Shielded Disc Collector
title_full Direct Deposition of Micron-Thick Aligned Ceramic TiO2 Nanofibrous Film on FTOs by Double-Needle Electrospinning Using Air-Turbulence Shielded Disc Collector
title_fullStr Direct Deposition of Micron-Thick Aligned Ceramic TiO2 Nanofibrous Film on FTOs by Double-Needle Electrospinning Using Air-Turbulence Shielded Disc Collector
title_full_unstemmed Direct Deposition of Micron-Thick Aligned Ceramic TiO2 Nanofibrous Film on FTOs by Double-Needle Electrospinning Using Air-Turbulence Shielded Disc Collector
title_sort direct deposition of micron-thick aligned ceramic tio2 nanofibrous film on ftos by double-needle electrospinning using air-turbulence shielded disc collector
publisher Hindawi Limited
series Journal of Nanomaterials
issn 1687-4110
1687-4129
publishDate 2011-01-01
description One-dimensional (1D) metal oxides, typically nanowires and nanorods, have unique electronic and optical properties due to quantum phenomena that find applications in modern energy and electronic devices. We present here the electrospinning method that produces the aligned TiO2 nanofibres directly on the fluorine-doped tin oxide (FTO) substrates mounted rotating disc collector. The aligned TiO2 ceramic nanofibres mat of 6 μm thickness is achieved in 4 h using a nonconductive enclosed-air-shield with air-hood design over the FTO mounted rotating disc collector. The aligned TiO2 nanofibers are found to retain its integrity and binding on FTO surface even after sintering at 500°C. SIMON 8 modeling package is used to determine the behaviour of the charged polymer/TiO2 jet when single and double needles are used for electrospinning process. The simulation study reveals that the repulsive force of the charged fibers from the double needle exerts stronger electric field distribution along the flow of stream that results in the reduction of the fibers diameter, which is about 28 nm than that of using single-needle system.
url http://dx.doi.org/10.1155/2011/739241
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