Comparative study of hydrogen storage in Li- and K-doped carbon materials - theoretically revisited
Data(s) |
01/01/2004
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Resumo |
Hydrogen adsorption in alkali-doped carbon materials is investigated theoretically. Our calculations show that hydrogen molecules can be physically adsorbed on alkali-doped graphite at 0 K but such an adsorption is thermodynamically unfavourable. The binding energy of hydrogen adsorption decreases significantly with the increase in temperature and becomes nearly zero at ambient temperature. We suggest that it may be unlikely to observe any hydrogen uptake in alkali-doped carbon materials at or above ambient temperature in the TGA (thermogravimetric) system, the previously reported hydrogen uptake in alkali-doped carbon materials was caused by either uncyclable chemisorbed hydrogen on the defects of carbon (defects were produced by repeated heat treatment) and/or moisture adsorption. (C) 2004 Elsevier Ltd. All rights reserved. |
Identificador | |
Idioma(s) |
eng |
Publicador |
Pergamon/Elsevier |
Palavras-Chave | #Chemistry, Physical #Materials Science, Multidisciplinary #Carbon #Catalyst #Modeling #Gas storage #Nanotubes #Adsorption #Graphite #Absorption #Potassium #C1 #291899 Interdisciplinary Engineering not elsewhere classified #620107 Cotton #0904 Chemical Engineering |
Tipo |
Journal Article |