参考文献
| [1] | Avouris P,Chen Z H,Perebeinos V.Carbon-based electronics.Nature Nanotechnology,2007,2:605 |
| [2] | Xia Y N,Yang P D,Sun Y G.One-dimensional nanostructures:synthesis,characterization,and applications.Adv Mater,2003,15:353 |
| [3] | Fu X J,Zhang H Y,Guo C X,et al.Fabrication and photoelectrical characteristics of ZnO nanowire field-effect transistors.Journal of Semiconductors,2009,30(8):084002 |
| [4] | Li Y G,Yang A C,Zhuo B S,et al.Growth of SiO2 nanowires on different substrates using Au as a catalyst.Journal of Semiconductors,2011,32(2):023002 |
| [5] | Eddy J C R,Gaskil D K.Silicon carbide as a platform for power electronics.Science,2009,324:1398 |
| [6] | Marinella M J,Schroder D K,Chung G,et al.Carrier generation lifetimes in 4H-SiC MOS capacitors.IEEE Trans Electron Devices,2010,57:1910 |
| [7] | Wu H,Sun G S,Yang T,et al.Effect of annealing process on the surface roughness in multiple Al implanted 4H-SiC.Journal of Semiconductors,2011,32(7):072002 |
| [8] | Liu C J,Liu S,Feng J J,et al.Nickel ohmic contacts of high-concentration P-implanted 4H-SiC.Journal of Semiconductors,2012,33(3):036002 |
| [9] | Seong H K,Choi H J,Lee S K,et al.Optical and electrical transport properties in silicon carbide nanowires.Appl Phys Lett,2004,85:1256 |
| [10] | Zhou W M,Fang F,Hou Z Y,et al.Field-effect transistor based onβ-SiC nanowire.IEEE Electron Device Lett,2006,27:463 |
| [11] | Rogdakis K,Bescond M,Bano E,et al.Theoretical comparison of 3C-SiC and Si nanowire FETs in ballistic and diffusive regimes.Nanotechnology,2007,18:475715 |
| [12] | Rogdakis K,Lee S Y,Bescond M,et al.3C-silicon carbide nanowire FET:an experimental and theoretical approach.IEEE Trans Electron Devices,2008,55:1970 |
| [13] | Jang C O,Kim T H,Lee S Y,et al.Low-resistance ohmic contacts to SiC nanowires and their applications to field-effect transistors.Nanotechnology,2008,19:345203 |
| [14] | Rogdakis K,Lee S Y,Kim D J,et al.Effect of source and drain contacts Schottky barrier on 3C-SiC nanowire FETs Ⅰ-Ⅴ characteristics.Mater Sci Forum,2009,615-617:235 |
| [15] | Kang S J,Kocabas C,Ozel T,et al.High-performance electronics using dense,perfectly aligned arrays of single-walled carbon nanotubes.Nature Nanotech,2007,2:230 |
| [16] | Cao Q,Rogers J A.Random Networks and aligned arrays of single-walled carbon nanotubes for electronic device applications.Nano Research,2008,1:259 |
| [17] | Kocabas C,Kang S J,Ozel T,et al.Improved synthesis of aligned arrays of single-walled carbon nanotubes and their implementation in thin film type transistors.J Phys Chem C,2007,111:17879 |
| [18] | Park W I,Zheng G F,Jiang X C,et al.Controlled synthesis of millimeter-long silicon nanowires with uniform electronic properties.Nano Lett,2008,8:3004 |
| [19] | Wang F L,Zhang L Y,Zhang Y F.SiC nanowires synthesized by rapidly heating a mixture of SiO and arc-discharge plasma pretreated carbon black.Nanoscale Res Lett,2009,4:153 |
| [20] | Motayed A,Vaudin M,Davydov A V,et al.Diameter dependent transport properties of gallium nitride nanowire field effect transistors.Appl Phys Lett,2007,90:043104 |
| [21] | Ford A C,Ho J C,Chueh Y L,et al.Diameter-dependent electron mobility of InAs nanowires.Nano Lett,2009,9:360 |
| [22] | Chen C X,Zhang W,Zhang Y F.Multichannel carbon nanotube field-effect transistors with compound channel layer.Appl Phys Lett,2009,95:192110 |
| [23] | Duan X F,Niu C M,Sahi V,et al.High-performance thin-film transistors using semiconductor nanowires and nanoribbons.Nature,2003,425:274 |
| [24] | Kumar S,Murthy J Y,Alam M A.Percolating conduction in finite nanotube networks.Phys Rev Lett,2005,95:066802 |
| [25] | Whang D,Jin S,Wu Y,et al.Large-scale hierarchical organization of nanowire arrays for integrated nanosystems.Nano Lett,2003,3:1255 |
| [26] | Huang Y,Duan X F,Wei Q Q,et al.Directed assembly of onedimensional nanostructures into functional networks.Science,2001,291:630 |
| [27] | Liu Y L,Chung J H,Liu W K,et al.Dielectrophoretic assembly of nanowires.J Phys Chem B,2006,110:14098 |
| [28] | Vijayaraghavan A,Blatt S,Weissenberger D,et al.Ultra-largescale directed assembly of single-walled carbon nanotube devices.Nano Lett,2007,7:1556 |
| [29] | Fan D L,Cammarata R C,Chien C L.Precision transport and assembling of nanowires in suspension by electric fields.Appl Phys Lett,2008,92:093115 |
| [30] | Raychaudhuri S,Dayeh S A,Wang D L,et al.Precise semiconductor nanowire placement through dielectrophoresis.Nano Lett,2009,9:2260 |
| [31] | Freer E M,GrachevO,Duan X F,et al.High-yield self-limiting single-nanowire assembly with dielectrophoresis.Nature Nanotech,2010,5:525 |
| [32] | Oh K,Chung J H,Riley J J,et al.Fluid flow-assisted dielectrophoretic assembly of nanowires.Langmuir,2007,23:11932 |
| [33] | Chen C X,Yan L J,Kong E S W,et al.Ultrasonic nanowelding of carbon nanotubes to metal electrodes.Nanotechnology,2006,17:2192 |
| [34] | Chen C X,Zhang Y F.Manipulation of single-wall carbon nanotubes into dispersively aligned arrays between metal electrodes.J Phys D:Appl Phys,2006,39:172 |
| [35] | Chen C X,Xu D,Kong E S W,et al.Multichannel carbonnanotube FETs and complementary logic gates with nanowelded contacts.IEEE Electron Device Lett,2006,27:852 |
| [36] | Xu D D,Subramanian A,Dong L X,et al.Shaping nanoelectrodes for high-precision dielectrophoretic assembly of carbon nanotubes.EEE Trans Nanotechnol,2009,8:449 |
| [37] | Kumara S,Rajaraman S,Gerhardt R A,et al.Tin oxide nanosensor fabrication using AC dielectrophoretic manipulation of nanobelts.Electrochim Acta,2005,51:943 |
| [38] | Lao C S,Liu J,Gao P X,et al.ZnO nanobelt/nanowire Schottky diodes formed by dielectrophoresis alignment across Au electrodes.Nano Lett,2006,6:263 |
| [39] | Smith P A,Nordquist C D,Jackson T N,et al.Electric-field assisted assembly and alignment of metallic nanowires.Appl Phys Lett,2000,77:1339 |
| [40] | Lee S Y,Kim T H,Suh D I,et al.A study ofdielectrophoretically aligned gallium nitride nanowires in metal electrodes and their electrical properties.Chem Phys Lett,2006,427:107 |
| [41] | Li J Q,Zhang Q,Peng N,et al.Manipulation of carbon nanotubes using AC dielectrophoresis.Appl Phys Lett,2005,86:153116 |
| [42] | Hamers R J,Beck J D,Eriksson M A,et al.Electrically directed assembly and detection of nanowire bridges in aqueous media.Nanotechnology,2006,17:S280 |
| [43] | Xiao Z,Sharma H,Zhu M Y,et al.Dielectrophoresis-assisted deposition and alignment of single-walled carbon nanotubes for electronic-device fabrication.J Vac Sci Technol A,2010,28:750 |
| [44] | Hulman M,Tajmar M.The dielectrophoretic attachment of nanotube fibers on tungsten needles.Nanotechnology,2007,18:145504 |
| [45] | Zhou W M,Liu X,Zhang Y F.Simple approach to β-SiC nanowires:synthesis,optical,and electrical properties.Appl Phys Lett,2006,89:223124 |
| [46] | Davydov S Y.Estimates of the spontaneous polarization and permittivities of AlN,GaN,InN,and SiC crystals.Phys Solid State,2009,51:1231 |
| [47] | Powell J A,Matus L G,Kuczmarski M A.Growth and characterization of cubic SiC single-crystal films on Si.J Electrochem Soc,1987,34:1558 |
| [48] | Lide D R.CRC handbook of chemistry and physics.Boca Raton:CRC Press,2008 |
| [49] | Macfie G,Compton R G,Corti H R.Electrical conductivity and solubility of KF in N,N-Dimethylformamide up to 125 ℃.J Chem Eng Data,2001,46:1300 |
| [50] | Sze S M,Ng K K.Physics of semiconductor devices.Hoboken:John Wiley & Sons Inc,2006 |
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