參考文獻 |
[1] Z. Li, Y. Chen, X. Li, T. I. Kamins, K. Nauka, and R. S. Williams, “Sequence-Specific Label-Free DNA Sensor Based on Silicon Nanowires,” Nano Lett. 4 (2004) 245-247.
[2] Yi Cui and C. M. Liber, “Functional Nanoscale Electronic Devices Assembled Using Silicon Nanowire Building Blocks,” Science 291 (2001) 851-853.
[3] X. Duan, C. Niu, V. Sahi, J. Chen, J. W. Parce, S. Empedocles, and J. L. Goldman, “High-Performance Thin-Film Transistors Using Semiconductor Nanowires and Nanoribbons,” Nature 425 (2003) 274-278.
[4] Y. Cui, Z. Zhong, D. Wang, W. U. Wang, and C. M. Liber, “High Performance Silicon Nanowire Field Effect Transistors,” Nano Lett. 3 (2003) 149-152.
[5] J. Goldberger, A. I. Hochbaum, R. Fan, and P. Yang, “Silicon Vertically Integrated Nanowire Field Effect Transistors,” Nano Lett. 5 (2006) 973-977.
[6] C. K. Chan, H. Peng, G. Liu, K. Mcilwrath, X. F. Zhang, R. A. Huggins, and Y. Cui, “High-Performance Lithium Battery Anodes Using Silicon Nanowires,” Nature 3 (2008) 31-35.
[7] C. Zhang, P. Chen, J. Liu, Y. Zhang, W. Shen, H. Xu, and Y. Tang, “Ag Microparticles Embedded in Si Nanowire Arrays: A Novel Catalyst For Gas-Phase Oxidation of High Alcohol to Aldehyde,” Chem. Commun. 28 (2008) 3290-3292.
[8] N. N. Mishra, W. C. Maki, E. Cameron, R. Nelson, P. Winterrowd, S. K. Rastogi, B. Filanoski, and G. K. Maki, “Ultra-Sensitive Detection of Bacterial Toxin with Silicon Nanowire Transistor,” Lab Chip 8 (2008) 868-871.
[9] S. Su, Y. He, M. Zhang, K. Yang, S. Song, X. Zhang, Z. Fan, and S. T. Lee, “High-Sensitivity Pesticide Detection via Silicon Nanowires-Supported Acetylcholinesterase-Based Electrochemical Sensors,” Appl. Phys. Lett. 93 (2008) 023113-1~023113-3.
[10] L. Mu, W. Shi, J. C. Chang, and S. T. Lee, “Silicon Nanowires-Based Fluorescence Sensor for Cu (Ⅱ),” Nano Lett. 8 (2008) 104-109.
[11] H. Wang, X. H. Zhang, D. D. D. Ma, and S. T. Lee, “Large-Scale Silica Nanowire Array Grown on Liquid Tin and Its Applications as Hg (Ⅱ) Scavenger,” Appl. Phys. Lett. 93 (2008) 023119-1~023119-3.
[12] Z. H. Chen, J. S. Jie, L. B. Luo, H Wang, C. S. Lee, and S. T. Lee, “ Applications od Silicon Nanowires Functionalized with Palladium Nanoparticles in Hydrogen Sensors,” Nanotechnology 18 (2007) 345502-1~345502-5.
[13] L. Hu and G. Chen, “Analysis of Optical Absorption in Silicon Nanowire Arrays for Photovoltaic Applications,” Nano lett. 7 (2007) 3249-3252.
[14] K. Peng, X. Wang, and S. T. Lee, “Silicon Nanowire Array Photoelectrochemical Solar Cell,” Appl. Phys. Lett. 92 (2008) 163103-1~163103-3.
[15] M. D. Kelzenberg, D. B. Turner-Evans, B. M. Kayes, M. A. Filler, M. C. Putnam, N. S. Lewis, and H. A. Atwater, “Photovoltaic Measurements in Single-Nanowire Silicon Solar Cells,” Nano Lett. 8 (2008) 710-714.
[16] Z. Zhang, X. H. Fan, L. Xu, C. S. Lee, and S. T. Lee, “Morphology and Growth Mechanism Study of Self-Assembled Silicon Nanowires Synthesized by Thermal Evaporation,” Chem. Phys. Lett. 337 (2001) 18-24.
[17] Y. J. Chen, J. B. Li, and J. H. Dai, “Si and SiOx Nanostructures Formed via Thermal Evaporation,” Chem. Phys. Lett. 344 (2001) 450-456.
[18] J. Niu, J. Sha, and D. Yang, “Silicon Nano-Wires Fabricated by a Novel Thermal Evaporation of Zinc Sulfide,” Physica E 24 (2004) 178-182.
[19] J. Niu, J. Sha, and D. Yang, “Silcon Nanowires Fabricated by Thermal Evaporation of Silicon Monoxide,” Physica E 23 (2004) 131-134.
[20] Y. F. Zhang, Y. H. Tang, N. Wang, D. P. Yu, C. S. Lee, I. Bello, and S. T. Lee, “Silicon Nanowires Prepared by Laser Ablation at High Temperature,” Appl. Phys. Lett. 72 (1998) 1835-1837.
[21] Y. H. Tang, Y. F. Zhang, H. Y. Peng, N. Wang, C. S. Lee, and S. T. Lee, “Si Nanowires Synthesized by Laser Ablation of Mixed SiC and SiO2 Powers,” Chem. Phys. Lett. 314 (1999) 16-20.
[22] N. Wang, Y. F. Zhang, Y. H. Tang, C. S. Lee, and S. T. Lee, “SiO2-Enhanced Synthesis of Si Nanowires by Laser Ablation,” Appl. Phys. Lett. 73 (1998) 3902-3904.
[23] R. S. Wanger and W. C. Ellis, “Vapor-Liquid-Solid Mechanism of Single Crystal Growth,” Appl. Phys. Lett. 4 (1964) 89-90.
[24] M. Ishida, T. Kawano, M. Futagawa, Y. Arai, H. Takao, and K. Sawada, “A Si Nano-Micro-Wire Array on Si(001) Substrate and Field Emission Device Applications,” Superlattices Microstruct. 34 (2003) 567-575.
[25] G. S. Doerk, N. Ferralis, C. Carraro, and R. Maboudian, “Growth of Branching Si Nanowires Seeded by Au-Si Surface Migration,” J. Mater. Chem. 18 (2008) 5376-5381.
[26] M. Lu, M. K. Li, L. B. Kong, X. Y. Guo, and H. L. Li, “Silicon Quantum-Wires Arrays Synthesized by Chemical Vapor Deposition and its Micro-Structural Properties,” Chem. Phys. Lett. 374 (2003) 542-547.
[27] T. Hanrath and B. A. Korgel, “ Supercritical Fluid-Liquid-Solid (SFLS) Synthesis of Si and Ge Nanowires Seeded by Colloidal Metal Nanocrystals,” Adv. Mater. 15 (2003) 437-440.
[28] F. M. Davidson, Ⅲ, R. Wiacek, and B. A. Korgel, “Supercritical Fluid-Liquid-Solid Synthesis of Gallium Phosphide Nanowires,” Chem. Mater. 17 (2005) 230-233.
[29] T. Qiu, X. L. Wu, Y. F. Mei, P. K. Chu, and G. G. Siu, “Self-Organized Synthesis of Silver Dendritic Nanostructures via an Electroless Metal Deposition Method,” Appl. Phys. A 81 (2005) 669-671.
[30] V. Schmidt, S. Senz, and U. Gösele, “Diameter-Dependent Growth Direction of Epitaxial Silicon Nanowire,” Nano Lett. 5 (2005) 931-935.
[31] Y. Wu, Y. Cui, L. Huynh, C. J. Barrelet, D. C. Bell, and C. M. Liber, “Controlled Growth and Structures of Molecular-Scale Silicon Nanowires,” Nano Lett. 4 (2004) 433-436.
[32] N. Wang, Y. H. Tang, Y. F. Zhang, C. S. Lee, and S. T. Lee, “Nucleation and Growth of Si Nanowires from Silicon Oxide,” Phys. Rev. B 58 (1998) R16024-R16026.
[33] S. T. Lee, N. Wang, and C. S. Lee, “Semiconductor Nanowires: Synthesis, Structure and Properties,” Mater. Sci. Eng., A A286 (2000) 16-23.
[34] Y. F. Zhang, Y. H. Tang, H. Y. Peng, N. Wang, C. S. Lee, I. Bello, and S. T. Lee, “Diameter Modification of Silicon Nanowires by Ambient Gas,” Appl. Phys. Lett. 75 (1999) 1842-1844.
[35] H. F. Yan , Y. J. Xing , Q. L. Hang , D. P. Yu , Y. P. Wang, J. Xu, Z. H. Xi, and S. Q. Feng, “Growth of Amorphous Silicon Nanowires via a Solid–Liquid–Solid Mechanism,” Chem. Phys. Lett. 323 (2000) 224-228.
[36] E. K. Lee, B. L. Choi, Y. D. Park, Y. Kuk, S. Y. Kwon, and H. J. Kim, “Device Fabrication with Solid–Liquid–Solid Grown Silicon Nanowires,” Nanotechnology 19 (2008) 185701.
[37] K. Q. Peng, Y. J. Yan, S. P. Gao, and J. Zhu, “Synthesis of Large Area Silicon Nanowire Arrays via Self Assembling Nanolectrochemistry,” Adv. Mater. 14 (2002) 1164-1167.
[38] T. Qiu, X. L. Wu, Y. F. Mei, P. K. Chu, and G. G. Siu, “Self-Organized Synthesis of Silver Dendritic Nanostructures via an Electroless Metal Deposition Method,” Appl. Phys. A 81 (2005) 669-671.
[39] K. Peng and J. Zhu, “Morphological Selection of Electroless Metal Deposits on Silicon in Aqueous Fluoride Solution,” Electrochim. Acta 49 (2004) 2563-2568.
[40] K. Peng, Y. Yan, S. Gao, and J. Zhu, “Dendrite-Assisted Growth of Silicon Nanowires in Electroless Metal Deposition,” Adv. Funct. Mater. 13 (2003) 127-132.
[41] K. Peng, Y. Wu, H. Fang, X. Zhong, Y. Xu, and J. Zhu, “Uniform, Axial-Orientation Alignment of One-Dimensional Single-Crystal Silicon Nanostructure Arrays,” Angew. Chem. Int. Ed. 44 (2005) 2737-2742.
[42] K. Peng, J. Hu, Y. Yan, Y. Wu, H. Fang, Y. Xu, S. T. Lee, and J. Zhu, “Fabrication of Single-Crystalline Silicon Nanowires by Scratching a Silicon Surface with Catalytic Metal Particles,” Adv. Funct. Mater. 16 (2006) 387-394.
[43] T. Qiu, X. L. Wu, X. Yang, G. S. Huang, and Z. Y. Zhang, “Self-Assembled Growth and Optical Emission of Silver-Capped Silicon Nanowires,” Appl. Phys. Lett. 84 (2004) 3867-3869.
[44] H. Fang, Y. Wu, J. Zhao, and J. Zhu, “Silver Catalysis in the Fabrication of Silicon Nanowire Arrays,” Nanotechnology 17 (2006) 3768- 3774.
[45] J. Rybczynski, U. Ebels, and M. Giersig, “Large-Scale, 2D Arrays of Magnetic Nanoparticles,” Colloids Surf. Physicochem. Eng. Aspects 219 (2003) 1-6.
[46] J. Aizenberg, P. V. Braun, and P. Wiltzius, “Patterned Colloidal Deposition Controlled by Electrostatic and Capillary Forces,” Phys. Rev. Lett. 84 (2000) 2997-3000.
[47] A. Winkleman, B. D. Gates, L. S. McCarty, and G. M. Whitesides, “Directed Self-Assembly of Spherical Particles on Patterned Electrodes by an Applied Electric Field,” Adv. Mater. 17 (2005) 1507-1511.
[48] J. C. Hulteen and R. P. Van Duyne, “Nanosphere Lithography: A Materials General Fabrication Process for Periodic Particle Array Surfaces,” J. Vac. Sci. Technol. A 13 (1995) 1553-1558.
[49] H. W. Deckman and J. H. Dunsmuir, “Natural Lithography,” Appl. Phys. Lett. 41 (1982) 377-379.
[50] J. S. Rowlinson and B. Widom, “Molecular Theory of Capillarity,” OXFORD Science Publications, 66, 816 (1982).
[51] R. N. Wenzel, “Surface Roughness and Contact Angle,” J. Phys. Chem. 53 (1949) 1466-1467.
[52] A. B. D. Cassie and S. Baxter, “Contact Angle,” Trans. Faraday Soc. 40 (1944) 546.
[53] D. Quéré, “Rough Ideas on Wetting,” Physica A 313 (2002) 32-46.
[54] X. Li and P. W. Bohn, “Metal-Assisted Chemical Etching in HF/H2O2 Produces Porous Silicon,” Appl. Phys. Lett. 77 (2000) 2572-2574.
[55] Z. Yoshimitsu, A. Nakajima, T. Watanabe, and K. Hashimoto, “Effects of Surface Structure on the Hydrophobicity and Sliding Behavior of Water Droplets,” Langmuir 18 (2002) 5818-5822.
[56] M. Lundgren, N. L. Allan, and T. Cosgrove, “Modeling of Wetting: A Study of Nanowetting at Rough and Heterogeneous Surfaces,” Langmuir 23 (2007) 1187-1194.
[57] T. Onda, S. Shibuichi, N. Satoh, and K. Tsujii, “Super-Water-Repellent Fractal Surfaces,” Langmuir 12 (1996) 2125-2127.
[58] S. M. Yang, D. G. Choi, S. G. Jang, S. Kim, E. Lee, and C. S. Han, “Multifaceted and Nanobored Particle Arrays Sculpted Using Colloidal Lithography,” Adv. Funct. Mater. 16 (2006) 33-40.
[59] D. Wang, G. Zhang, and H. Mohwald, “Nanoembossment of Au Patterns on Microspheres,” Chem. Mater. 18 (2006) 3985-3992.
[60] J. Meichsner, M. Nitschke, R. Rochotzki, and Zeuner, “Fundamental Investigations in Plasma Modification on Polymers,” Surf. Coat. Technol. 74-75 (1995) 227-231.
[61] D. R. Turner, “Electropolishing Silicon in Hydrofluoric Acid Solutions,” J. Electrochem. Soc. 105 (1958) 402-408.
[62] R. W. Fathauer, T. George, A. Ksendzov, and R. P. Vasquez, “Visible Luminescence from Silicon Wafers Subjected to Stain Etches,” Appl. Phys. Lett. 60 (1992) 995-997.
[63] S. Chattopadhyay, X. Li, and P. W. Bohn, “In-Plane Control of Morphology and Tunable Photoluminescence in Porous Silicon Produced by Metal-Assisted Electroless Chemical Etching,” J. Appl. Phys. 91 (2002) 6134-6140.
[64] N. Megouda, T. Hadjersi, G. Piret, R. Boukherroub, and O. Elkechai, “Au-Assisted Electroless Etching of Silicon in Aqueous HF/H2O2 Solution,” Appl. Surf. Sci. 255 (2009) 6210-6216.
[65] F. Wang, A. Dong, J. Sun, R. Tang, H. Yu, and W. E. Buhro, “Solution-Liquid-Solid Growth of Semiconductor Nanowires,” Inorg. Chem. 45 (2006) 7511-7521.
[66] T. Y. Kim, B. Ingmar, K. Bewilogua, K. H. Oh, and K. R. Lee, “Wetting Behaviours of a-C:H:Si:O Film Coated Nano-Scale Dual Rough Surface,” Chem. Phys. Lett. 436 (2007) 199-203.
[67] Y. Xiu, L. Zhu, D. W. Hess, and C. P. Wong, “Hierarchical Silicon Etched Structures for Controlled Hydrophobicity/Superhydrophobicity,” Nano Lett. 7 (2007) 3388-3393.
[68] A. Winkleman, G. Gotesman, A. Yoffe, and R. Naaman, “Immobilizing a Drop of Water: Fabricating Highly Hydrophobic Surfaces that Pin Water Droplets,” Nano Lett. 8 (2008) 1241-1245.
[69] K. Peng, Y. Xu, Y. Wu, Y. Yan, S. T. Lee, and J. Zhu, “Aligned Single-Crystalline Si Nanowire Arrays for Photovoltaic Applications,” Small 1 (2005) 1062-1067.
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