A reversible switch for hydrogen adsorption and desorption: electric fields. Academic Article

abstract

• Implementation of hydrogen storage systems requires moderate bonding strength. However, this goal has remained a challenge, either due to the weak physisorption or extremely strong chemisorption. Here, we report on a new phenomenon, namely that H2 binding can be externally enhanced (or weakened) via superimposition of a positive (or negative) electric field. We demonstrate this concept using an 8-Li-doped carbon nanotube. The calculated adsorption energy E(ad) = -0.58 eV/H2 under F = +0.010 au is 93.33% lower than that under 0.000 au (F indicates the field intensity). This is because the positive field produces an extra dipole moment. In contrast, E(ad) increases from -0.30 to -0.20 eV/H2 when F = -0.010 au. In view of the fact that storage systems are insensitive to small unexpected field fluctuations, the application of the electric field as a reversible switch makes practical sense.

authors

• Lavernia Borrego, Enrique

published proceedings

• Phys Chem Chem Phys

author list (cited authors)

• Liu, W., Zhao, Y. H., Li, Y., Lavernia, E. J., & Jiang, Q.

complete list of authors

• Liu, W||Zhao, YH||Li, Y||Lavernia, EJ||Jiang, Q

publication date

• October 2009

publisher

• Royal Society of Chemistry (RSC)  Publisher

published in

• Journal of the Chemical Society, Faraday Transactions  Journal

keywords

• 34 Chemical Sciences
• 3406 Physical Chemistry
• 7 Affordable And Clean Energy

PubMed Central ID

• 19812844

Digital Object Identifier (DOI)

• 10.1039/b907591g

start page

• 9233

end page

• 9240

volume

• 11

issue

• 40

URL

• http://dx.doi.org/10.1039/b907591g