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Konferencja
Conference “Optical Fibers and Their Applications” in Białowieża, Styczeń 2011
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Abstrakty
Recently the one-dimensional ZnO nanostructures have attracted much attention in gas sensor applications owing to their increased role of the surface. The authors have obtained ZnO rods of sub-micron size using the solution growth method with the growth temperature below 100.C. Investigations indicate that the rods have a well-defined hexagonal morphology and a wurtzite structure. The best uniformity and alignment of the sub-micron crystals was however obtained when electrodeposition from aqueous solution was developed. Sizes of these rods depend on the growth parameters. Moreover electrodeposition leads to a faster growth rate of ZnO sub-micron rods (2 hrs) as compared to the growth from solution (8 hrs). After electrodeposition the rods can be easily reoriented in external electric fields by using substrates with electrodes of appropriate geometry and configuration (dielectrophoretic effect). This enables the preparation of samples which can be used in gas sensor technology.
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Tom
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425--428
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
autor
autor
autor
- Department of Electronics, AGH University of Science and Technology, 30 Mickiewicza Ave., 30-059 Krakow, Poland, pisar@agh.edu.pl
Bibliografia
- [1] M.H. Huang, S. Mao, H. Feick, H. Yan, Y. Wu, H. Kind, E. Weber, R. Russo, and P. Yang, “Room-temperature ultraviolet nanowire nanolasers”, Science 292, 1897–1899 (2001).
- [2] B. Wacogne, M.P. Roe, T.A. Pattinson, and C.N. Pannell, “Effective piezoelectric activity of zinc oxide films grown by radio-frequency planar magnetron sputtering”, Appl. Phys. Lett. 67, 1674–1676 (1995).
- [3] T. Pisarkiewicz, H. Jankowski, E. Schabowska-Osiowska, and L.J. Maksymowicz, “Fabrication of thin film polycrystalline {CIS} photovoltaic heterostructure”, Opto-Electron. Rev. 11 (4), 297–304 (2003).
- [4] J. Cembrero, A. Elmanouni, B. Hartiti,M. Mollar, and B.Mari, “Nanocolumnar ZnO films for photovoltaic applications”, Thin Solid Films 451–452, 198–202 (2004).
- [5] A. Jaworek, A.T. Sobczyk, A. Krupa, M. Lackowski, and T. Czech, “Electrostatic deposition of nanothin films on metal substrate”, Bull. Pol. Ac.: Tech. 57 (1), 63–70 (2009).
- [6] J.F. Chang, H.H. Kuo, I.C. Leu, and M.H. Hon, “The effects of thickness and operation temperature on ZnO:Al thin film CO gas sensor”, Sensors & Actuators B 84, 258–264 (2002).
- [7] K.V. Gurav, P.R. Deshmukh, and C.D. Lockhande, “LPG sensing properties of Pd-sensitized vertically aligned ZnO nanorods”, Sensors & Actuators B 151, 365–369 (2011).
- [8] Q. Wan, Q.H. Li, Y.J. Chen, T.H. Wang, X.L. He, J.P. Li, and C.L. Lin, ”Fabrication and ethanol sensing characteristics of Bull. Pol. Ac.: Tech. 59(4) 2011 427 T. Pisarkiewicz, T. Kenig, A. Rydosz, and W. Maziarz ZnO nanowire gas sensors”, Appl. Phys. Lett. 84, 3654–3656 (2004).
- [9] H.J. Fan, P. Werner, and M. Zachariasz, “Semiconductor nanowires: from self organization to patterned growth”, Small 6, 700–717 (2006).
- [10] L. Vayssieres, K. Keis, A. Hagfeldt, and S.E. Lindquist, “Purpose-built anisotropic metal oxide material: 3D highly oriented microrod array of ZnO”, J. Phys. Chem. B 105, 3350–3352 (2001).
- [11] Z.R. Tian, J.A. Voight, J. Liu, B. Mackenzie, M.J. Mcdermott, M.A. Rodriguez, H. Konishi, and H. Xu, “Complex and oriented ZnO nanostructures”, Nature Mater. 2, 821–826 (2003).
- [12] R. Chander and A.K. Raychaudhuri, “Growth of aligned arrays of ZnO nanorods by low temperature solution method on Si surface”, J. Mater. Sci. 41, 3623–3630 (2006).
- [13] K. Jiang, W. Liu, L. Wan, and J. Zhang, “Manipulation of ZnO nanostructures using dielectrophoretic effect”, Sensors and Actuators B 134, 79–88 (2008).
- [14] Ch.-H.Hung and W.-T. Whang, “A novel low-temperature growth and characterization of single crystal ZnO nanorods”, Materials Chemistry and Physics 82, 705–710 (2003).
- [15] R.Chander and A.K. Raychaudhuri, “Electrodeposition of aligned arrays of ZnO nanorods in aqueous solution”, Solid State Communications 145, 81–85 (2008).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG8-0070-0032