Titanium-decorated carbon nanotubes: a potential high-capacity hydrogen storage medium
arXiv:cond-mat/0504694 · doi:10.1103/PhysRevLett.94.175501
Abstract
We report a first-principles study, which demonstrates that a single Ti atom coated on a single-walled nanotube (SWNT) binds up to four hydrogen molecules. The first H$_2$ adsorption is dissociative with no energy barrier while other three adsorptions are molecular with significantly elongated H-H bonds. At high Ti coverage we show that a SWNT can strongly adsorb up to 8-wt% hydrogen. The system is quite stable and exhibits associative desorption upon heating, a requirement for reversible storage. These results advance our fundamental understanding of dissociative adsorption of hydrogen in nanostructures and suggest new routes to better storage and catalyst materials.
4.2 pages, 3 figures, submitted PRL on Nov. 2004, accepted in March 2005