Thin SnO2 nanowires with uniform diameter as excellent field emitters : a stability of more than 2400 minutes
The stability of a field-emission event, i.e., the stability of the emission current over a long period of time, against thermal effects, etc., is one of the key factors for its application in real devices. Although nanostructures have the advantages of high aspect ratios and faster device turn-on t...
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sg-ntu-dr.10356-971002020-06-01T10:26:41Z Thin SnO2 nanowires with uniform diameter as excellent field emitters : a stability of more than 2400 minutes Fang, Xiaosheng Yan, Jian Hu, Linfeng Liu, Hui Lee, Pooi See School of Materials Science & Engineering Temasek Laboratories The stability of a field-emission event, i.e., the stability of the emission current over a long period of time, against thermal effects, etc., is one of the key factors for its application in real devices. Although nanostructures have the advantages of high aspect ratios and faster device turn-on times, the small masses and large surface areas make them vulnerable to both chemical and physical damages and they have a lower melting point compared to bulk materials of same compositions. SnO2, one of the most attractive oxide semiconductors, which has with a relatively low work function of 4.7 eV, has been a perspective candidate for field emitters. A highly stable field emitter based on thin and quasi-aligned SnO2 nanowire ensembles with uniform diameter is shown. Field-emission measurements of these SnO2 nanowire ensembles show low turn-on and threshold voltages of 3.5 V μm−1 and 4.63 V μm−1, respectively, at an anode–sample distance of 200 μm and very long term scale stability of more than 2400 min, acquired at the electric field of 4.65 V μm−1. Such values are not only better than those of the recently developed SnO2 nanostructures with different morphologies and of randomly oriented SnO2 nanowire ensembles with a similar diameter distribution, but also comparable with the most widely studied field-emission materials, such as carbon nanotubes and ZnO nanostructures. The potential for using these thin SnO2 nanowire ensembles with uniform diameter in field emitters is shown, with particular promise in those operated for long-term real device applications. 2013-06-17T04:11:43Z 2019-12-06T19:38:57Z 2013-06-17T04:11:43Z 2019-12-06T19:38:57Z 2012 2012 Journal Article Fang, X., Yan, J., Hu, L., Liu, H., & Lee, P. S. (2012). Thin SnO2 Nanowires with Uniform Diameter as Excellent Field Emitters: A Stability of More Than 2400 Minutes. Advanced Functional Materials, 22(8), 1613-1622. 1616-3028 https://hdl.handle.net/10356/97100 http://hdl.handle.net/10220/10430 10.1002/adfm.201102196 en Advanced functional materials © 2012 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim. |
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The stability of a field-emission event, i.e., the stability of the emission current over a long period of time, against thermal effects, etc., is one of the key factors for its application in real devices. Although nanostructures have the advantages of high aspect ratios and faster device turn-on times, the small masses and large surface areas make them vulnerable to both chemical and physical damages and they have a lower melting point compared to bulk materials of same compositions. SnO2, one of the most attractive oxide semiconductors, which has with a relatively low work function of 4.7 eV, has been a perspective candidate for field emitters. A highly stable field emitter based on thin and quasi-aligned SnO2 nanowire ensembles with uniform diameter is shown. Field-emission measurements of these SnO2 nanowire ensembles show low turn-on and threshold voltages of 3.5 V μm−1 and 4.63 V μm−1, respectively, at an anode–sample distance of 200 μm and very long term scale stability of more than 2400 min, acquired at the electric field of 4.65 V μm−1. Such values are not only better than those of the recently developed SnO2 nanostructures with different morphologies and of randomly oriented SnO2 nanowire ensembles with a similar diameter distribution, but also comparable with the most widely studied field-emission materials, such as carbon nanotubes and ZnO nanostructures. The potential for using these thin SnO2 nanowire ensembles with uniform diameter in field emitters is shown, with particular promise in those operated for long-term real device applications. |
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School of Materials Science & Engineering |
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School of Materials Science & Engineering Fang, Xiaosheng Yan, Jian Hu, Linfeng Liu, Hui Lee, Pooi See |
| format |
Article |
| author |
Fang, Xiaosheng Yan, Jian Hu, Linfeng Liu, Hui Lee, Pooi See |
| spellingShingle |
Fang, Xiaosheng Yan, Jian Hu, Linfeng Liu, Hui Lee, Pooi See Thin SnO2 nanowires with uniform diameter as excellent field emitters : a stability of more than 2400 minutes |
| author_sort |
Fang, Xiaosheng |
| title |
Thin SnO2 nanowires with uniform diameter as excellent field emitters : a stability of more than 2400 minutes |
| title_short |
Thin SnO2 nanowires with uniform diameter as excellent field emitters : a stability of more than 2400 minutes |
| title_full |
Thin SnO2 nanowires with uniform diameter as excellent field emitters : a stability of more than 2400 minutes |
| title_fullStr |
Thin SnO2 nanowires with uniform diameter as excellent field emitters : a stability of more than 2400 minutes |
| title_full_unstemmed |
Thin SnO2 nanowires with uniform diameter as excellent field emitters : a stability of more than 2400 minutes |
| title_sort |
thin sno2 nanowires with uniform diameter as excellent field emitters : a stability of more than 2400 minutes |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/97100 http://hdl.handle.net/10220/10430 |
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