Abstract
The vibrational and electronic properties of hydrogen molecules adsorbed on single-wall carbon nanotubes were investigated by high-resolution electron-energy-loss spectroscopy. We found that the adsorption of molecules is dissociative at room temperature and The C-H bond formed upon hydrogen adsorption has a vibrational energy equal to 360 meV, in agreement with the expected H-induced local rehybridization. The hydrogenation of carbon nanotubes also gives rise to significant changes for both the line shape and the excitation energy of the plasmon. Upon H adsorption, the plasmon shifts by 0.8 eV towards lower energies and, moreover, a weak feature rises up at 3.5 eV.
- Received 24 September 2003
DOI:https://doi.org/10.1103/PhysRevB.69.153409
©2004 American Physical Society