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1. S. Neupane, Y. Yang, W. Z. Li, Q. Su, G. H. Du “A facile approach for large-scale fabrication of free-standing vertically aligned SnO2/CNT arrays on conducting substrate” (Under preparation) . | ||||||||
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< < | 2. S. Neupane, Y. Yang, W.Z. Li, Y. Gao “Synthesis and enhanced electron field emission of vertically aligned carbon nanotubes grown on stainless steel substrate” (Journal of Nanoscience Letters, In press). | |||||||
> > | 2. S. Neupane, Y. Yang, W.Z. Li, Y. Gao “Synthesis and enhanced electron field emission of vertically aligned carbon nanotubes grown on stainless steel substrate” (Journal of Nanoscience Letters, In press). | |||||||
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4. S. Neupane, G. Kaganas, R. Valenzuela, L. Kumari, X. W. Wang, W. Z. Li, “Synthesis and characterization of ruthenium dioxide nanostructures”, Journal of Materials Science, 46, (2011) 4803-4811. | ||||||||
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< < | 5. S. Neupane, W. Z. Li “Carbon Nanotube Arrays: Synthesis, Properties and Applications” Chapter 10 in Three-Dimensional Nanoarchitectures: Designing Next-Generation Devices, Springer, (2011), 261-285. | |||||||
> > | 5. S. Neupane, W. Z. Li “Carbon Nanotube Arrays: Synthesis, Properties and Applications” Chapter 10 in Three-Dimensional Nanoarchitectures: Designing Next-Generation Devices, Springer, (2011), 261-285. | |||||||
6. G. H. Chen, S. Neupane, W. Z. Li, L. Chen, J. Zhang, “An increase in the field emission from vertically aligned multiwalled carbon nanotubes caused by NH3 plasma treatment” , Carbon 50 (2013), 468-475. |
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> > | Please consider that all downloadable materials on this site are available for personal academic use only, and in accordance with the current copyright laws. | ||||||||||
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< < | 1. S. Neupane, M. Lastres, M. Chiarella, W. Z. Li, Q. Su, G. H. Du, “Synthesis and field emission properties of vertically aligned carbon nanotube arrays on copper”, Carbon 50 (2012) 2641-2650. | ||||||||||
> > | 1. S. Neupane, Y. Yang, W. Z. Li, Q. Su, G. H. Du “A facile approach for large-scale fabrication of free-standing vertically aligned SnO2/CNT arrays on conducting substrate” (Under preparation) . | ||||||||||
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< < | 2. S. Neupane, G. Kaganas, R. Valenzuela, L. Kumari, X. W. Wang, W. Z. Li, “Synthesis and characterization of ruthenium dioxide nanostructures”, Journal of Materials Science, 46, (2011) 4803-4811. | ||||||||||
> > | 2. S. Neupane, Y. Yang, W.Z. Li, Y. Gao “Synthesis and enhanced electron field emission of vertically aligned carbon nanotubes grown on stainless steel substrate” (Journal of Nanoscience Letters, In press). | ||||||||||
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< < | 3. S. Neupane, W. Z. Li “Carbon Nanotube Arrays: Synthesis, Properties and Applications” Chapter 10 in Three-Dimensional Nanoarchitectures: Designing Next-Generation Devices , Springer, (2011), 261-285. | ||||||||||
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< < | 4. G. H. Chen, S. Neupane, W. Z. Li, L. Chen, J. Zhang, “An increase in the field emission from vertically aligned multiwalled carbon nanotubes caused by NH3 plasma treatment” , Carbon 50 (2013), 468-475. | ||||||||||
> > | 3. S. Neupane, M. Lastres, M. Chiarella, W. Z. Li, Q. Su, G. H. Du, “Synthesis and field emission properties of vertically aligned carbon nanotube arrays on copper”, Carbon 50 (2012) 2641-2650. | ||||||||||
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< < | 5. G. H. Chen, S. Neupane, W. Z. Li, “Electron field emission properties of vertically aligned carbon nanotube point emitters” Diamond and Related Materials, 25 (2012), 134-138. | ||||||||||
> > | 4. S. Neupane, G. Kaganas, R. Valenzuela, L. Kumari, X. W. Wang, W. Z. Li, “Synthesis and characterization of ruthenium dioxide nanostructures”, Journal of Materials Science, 46, (2011) 4803-4811. | ||||||||||
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< < | 6. S. Neupane, Y. Yang, X. Wang, J. He, W.Z. Li, “Synthesis and enhanced electron field emission of vertically aligned carbon nanotubes on stainless steel substrate” (Journal of Nanoscience Letters, Under review). | ||||||||||
> > | 5. S. Neupane, W. Z. Li “Carbon Nanotube Arrays: Synthesis, Properties and Applications” Chapter 10 in Three-Dimensional Nanoarchitectures: Designing Next-Generation Devices, Springer, (2011), 261-285. | ||||||||||
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< < | 7. S. Neupane, Y. Yang, W. Z. Li, “A facile approach for large-scale fabrication of free-standing vertically aligned SnO2/CNT arrays on conducting substrate” (Carbon, Under review). | ||||||||||
> > | 6. G. H. Chen, S. Neupane, W. Z. Li, L. Chen, J. Zhang, “An increase in the field emission from vertically aligned multiwalled carbon nanotubes caused by NH3 plasma treatment” , Carbon 50 (2013), 468-475. 7. G. H. Chen, S. Neupane, W. Z. Li, “Electron field emission properties of vertically aligned carbon nanotube point emitters” Diamond and Related Materials, 25 (2012), 134-138. | ||||||||||
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5. G. H. Chen, S. Neupane, W. Z. Li, “Electron field emission properties of vertically aligned carbon nanotube point emitters” Diamond and Related Materials, 25 (2012), 134-138. | ||||||||
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> > | 6. S. Neupane, Y. Yang, X. Wang, J. He, W.Z. Li, “Synthesis and enhanced electron field emission of vertically aligned carbon nanotubes on stainless steel substrate” (Journal of Nanoscience Letters, Under review). 7. S. Neupane, Y. Yang, W. Z. Li, “A facile approach for large-scale fabrication of free-standing vertically aligned SnO2/CNT arrays on conducting substrate” (Carbon, Under review). | |||||||
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1. S. Neupane, M. Lastres, M. Chiarella, W. Z. Li, Q. Su, G. H. Du, “Synthesis and field emission properties of vertically aligned carbon nanotube arrays on copper”, Carbon 50 (2012) 2641-2650. | ||||||||
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4. G. H. Chen, S. Neupane, W. Z. Li, L. Chen, J. Zhang, “An increase in the field emission from vertically aligned multiwalled carbon nanotubes caused by NH3 plasma treatment” , Carbon 50 (2013), 468-475. 5. G. H. Chen, S. Neupane, W. Z. Li, “Electron field emission properties of vertically aligned carbon nanotube point emitters” Diamond and Related Materials, 25 (2012), 134-138. | ||||||||
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< < | 2. Electron field emission properties of vertically aligned carbon nanotube point emitters. | |||||||
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< < | 3. Synthesis and characterization of ruthenium dioxide nanostructures. | |||||||
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< < | 4. An increase in the field emission from vertically aligned multwalled carbon nanotubes caused by NH3 plasma treatment . | |||||||
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< < | 5.Carbon Nanotube Arrays: Synthesis, Properties and Applications | |||||||
> > | 1. S. Neupane, M. Lastres, M. Chiarella, W. Z. Li, Q. Su, G. H. Du, “Synthesis and field emission properties of vertically aligned carbon nanotube arrays on copper”, Carbon 50 (2012) 2641-2650. | |||||||
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< < | Book Chapter 10 in Three dimensional nano architectures: Designing Next generation devices | |||||||
> > | 2. S. Neupane, G. Kaganas, R. Valenzuela, L. Kumari, X. W. Wang, W. Z. Li, “Synthesis and characterization of ruthenium dioxide nanostructures”, Journal of Materials Science, 46, (2011) 4803-4811. | |||||||
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> > | 3. S. Neupane, W. Z. Li “Carbon Nanotube Arrays: Synthesis, Properties and Applications” Chapter 10 in Three-Dimensional Nanoarchitectures: Designing Next-Generation Devices , Springer, (2011), 261-285. | |||||||
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> > | 4. G. H. Chen, S. Neupane, W. Z. Li, L. Chen, J. Zhang, “An increase in the field emission from vertically aligned multiwalled carbon nanotubes caused by NH3 plasma treatment” , Carbon 50 (2013), 468-475. | |||||||
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> > | 5. G. H. Chen, S. Neupane, W. Z. Li, “Electron field emission properties of vertically aligned carbon nanotube point emitters” Diamond and Related Materials, 25 (2012), 134-138. | |||||||
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