Introducing a New Method of Nanowire Synthesis
Keywords:
Nanowire Synthesis, Electron Beaming, NanostructureAbstract
Nowadays, we are observing a very great interest in nano-structures such as quantum dots (zero-dimension) and wires (one-dimension). There is a vast number of methods to produce nano-structures, and in particular nanowires. The purpose of this research is to introduce a new method of Nanowire Synthesis that has lots of benefits compared with other methods. To achieve the goal, first the importance and different methods of nanowires synthesis are discussed; then, we will review different methods and mechanisms to generate 1D nanostructures and nanowires. After that, the most methods that are applied in generating nanowires are well explained. Finally, a most recent method is introduced; it has been predicted that this method (electron beaming) will have a very strong effect on the ways of manufacturing nanowires.
References
- Brewer, M., Zhang, T., Dong, W., Rutherford, M., & Tian, R. Z. (2007). Future Approaches of Nanomedicine in Clinical Science. Med Clin N Am, 963-1016.
- Chu, Z.-Q., Sasanipour, J., Saeedi, M., Baghban, A., & Mansoori, H. (2017). Modeling of wax deposition produced in the pipelines using PSO-ANFIS approach. Petroleum Science and Technology, 1974-1981.
- Grange, R., Choi, J., Hsieh, C., Pu, Y., Magrez, A., Smajda, R., . . . Psaltis, D. (2009). Lithium niobate nanowires: synthesis, optical properties and manipulation. Applied Physics Letters.
- Hanrath, T., & Korgel, B. A. (2003). Supercritical fluid-liquid-solid (SFLS) synthesis of Si and Ge nanowires seeded by colloidal metal nanocrystals. Advanced Materials, 15(5), 437-440.
- Hessami, A. R., Sun, D., Odreman, G. J., Zhou, X., Nejat, A., & Saeedi, M. (2017). Project Scoping Guidebook for Metropolitan Planning Organization Transportation Projects. Kingsville, Texas: Texas A&M University Kingsville (TAMUK).
- Kolasinski, K. W. (2006). Catalytic growth of nanowires: Vapor-liquid-solid, vapor-solid-solid, solution-liquid-solid and solid-liquid-solid growth. Current Opinion in Solid State and Materials Science, 182-191.
- Kolasinski, K. W. (2006). Catalytic growth of nanowires: Vapor-liquid-solid, vapor-solid-solid, solution-liquid-solid and solid-liquid-solid growth. Current Opinion in Solid State and Materials Science, 182-191.
- Saeedi, M. (2017). Developing an Integrated Closed-Loop Supply Chain Model By Considering Social Responsibility and Solving the Model Using Meta-Heuristic Methods. International Journal of Scientific Study, 394-403.
- Saeedi, M. (2017). Presenting a Novel Integrated Closed-loop Supply Chain Model by Considering Social Responsibility. Asian Journal of Applied Science and Technology, 1(8), 125-134.
- Torabi, A., Kiaian Mousavy, S., Dashti, V., Saeedi, M., & Yousefi, N. (2018). A New Prediction Model Based on Cascade NN for Wind Power Prediction. Computational Economics.
- Vizcaíno, J. P., & Núñez, C. A. (2013). Fast, effective manipulation of nanowires for electronic devices. SPIE Newsroom.
- Wang, N., Cai, Y., & Zhang, R. Q. (2008). Growth of nanowires. Materials Science and Engineering, 1-51.
- Xia, Y. (2003, March). One-dimensional nanostructures. Advanced Materials, 15.
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