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C. Paula, A. Ramos, André Silva, E. Botelho, M. Rezende (2002)
Fabrication of glassy carbon spools for utilization in fiber optic gyroscopesCarbon, 40
E. Frąckowiak, F. Béguin (2002)
Electrochemical storage of energy in carbon nanotubes and nanostructured carbonsCarbon, 40
S. Tsai, C. Shiu, S. Lai, H. Shih (2002)
Tubes on tube—a novel form of aligned carbon nanotubesCarbon, 40
T. Veziroglu (2005)
Hydrogen materials science and chemistry of carbon nanomaterials
R. Agarwal, Joong Noh, J. Schwarz, P. Davini (1987)
Effect of surface acidity of activated carbon on hydrogen storageCarbon, 25
A. Dillon, K. Jones, T. Bekkedahl, C. Kiang, D. Bethune, M. Heben (1997)
Storage of hydrogen in single-walled carbon nanotubesNature, 386
Yue Fan, Bin Liao, Min Liu, Yong-Liang Wei, M. Lu, Hui‐Ming Cheng (1999)
Hydrogen uptake in vapor-grown carbon nanofibersCarbon, 37
Carbon nanofibers with a porous structure and a specific surface area of 300– 475 m2 g1 were synthesized by pyrolysis of acetylene on iron-containing catalysts. The possibility of using the carbon nanostructures synthesized as hydrogen sorbents to replace hydride-forming metal alloys in chemical power cells was analyzed.
Russian Journal of Applied Chemistry – Springer Journals
Published: Mar 22, 2005
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