Articles
The hydrogen, the power source of the future: how to determine your storage capacity
Published 2003-05-01
Keywords
- Hydrogen Storage,
- carbon nanofibers,
- hydrogen
How to Cite
Bolívar Leòn, R., & Uribe Pérez, I. (2003). The hydrogen, the power source of the future: how to determine your storage capacity. Revista UIS Ingenierías, 2(1), 19–23. Retrieved from https://revistas.uis.edu.co/index.php/revistauisingenierias/article/view/2435
Abstract
Actually, the use of hydrogen like energy is the more successful to replace the oil because offacility manipulation and don't have the risk ofthe nuclear energy. The best storage capacityhave been reported to nanofibers and nanotubes carbol1. This study have began the knowledge,conceptualization and development ofelectrochemical methods to mesured the storage capacityand ases the influence ofmaterials choose in the making electrodes.
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References
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A. e. Dillon, K. M. Jones, T. A. Bekkedahl. e. H. Kiang, D. S. Bethune, M, J. Heben, Nature 386. 1997. p.377-379.
M. Rzepka, P. Lamp, M. A. de la Casa-Lillo, Jounlal of Physical Chemistry El02, 1998. p. 10849-10898.
Y. Ye, e. e. Ahn, e. Witham, B. Fultz, J. Liu, A. G. Rinzler, D. Colbert, K. A. Smith, R. E. Slllalley, Applied Physics Letters 74, Iss16, 1999. p. 2307-2309.
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Y. Y. Fau, B. Liao, M. Liu, Y. L. Wei, M. Q. Lu. H. M. Cheng, Carbon, 37, Iss lO, 1999. p. 1649-1652.
P. Chen, X. Wu, J. Lin, K. L. Tan, "High H2 up take by alkali-doped carbon nanotubes under ambient pressure and moderate temperatures", Science 285, 1999. pp.91-93.
S. Grimo, G. Majer, T. Fukunaga, A. Zuettel, L. SchIapbach, H. Fujii, Applied Physics Letters 75, 1999. pp. 3093-3095.
A Zuttel, Ch. Nützenadel, P. Sudan, Ph. Mauron, T. Kiyobayashi. Hydrogen sorptiou by carbon nanotubes and other carbon nanostructures. Jounlal of alloys and compounds. Accepted 200I
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Seung MiLee, Young Hee Lee. Novel mechanism of hydrogen storage in carbon nanotubes. Jour. of Koreanphys. Soc.; Vol. 38, No. 6, 2000. P 686-691.
Seung M. L. Kay Hyeok A, Young H. L. Gotthard S. and Thomas Frauenheim. A Hydrogen Storage Mechanismin Single-Walled Carbon Nanotubes. J. Aro Chem Soco 2001, 123, 5059-5063
Ch. Nützenadel, A. Züttel, D. Chartouni, L Schlapbach, Electrochemical and Solid State Letters 2, Issl, pp. 30-32,1999.
Ch. Nützenadel, A. Züttel. and L. Schlapbach, Chapo9!l Electronic Properties of Novel Materials", Science and Technology of Molecular Nanostructures, eds. H. Kuzmany, J. Fink, M. Mehring, and S. Roth, American Institute of Physics, New York, p. 462, 1999.
Ch. Nützenadel, A. Züttel, Ch. Emmenegger, P. Sudan, and L. Schlapbach, Chapo 10 "Sciences and Applications of Nanotubes ll, Kluwer Academic Publishing/ Plenum Press, ll Fundamental Materials Research Series", Ed. M. F. Thorpe, p. 205. 1999.
N. Rajalaksh.. mi, K. S. Dhathathreyan, A. Govindara J, Re. Satishkurnar. Electrochemical investigation of single-walled carbon nanotubes for hydrogen storage. Electrochemical Acta, 45, 4S11-4515. 2000.