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Hydrogen storage en...
Hydrogen storage enhancement via transition metal decoration on metal organic frameworks : A first-principles study
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Hwang, J. (author)
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Park, C. (author)
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Choi, K. (author)
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Cha, M. -H (author)
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- Ahuja, Rajeev (author)
- Uppsala universitet,Materialteori
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Kim, D. W. (author)
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Kim, D. O. (author)
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Sagong, K. (author)
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Joung, U. G. (author)
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Jeong, H. (author)
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Ihm, J. (author)
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(creator_code:org_t)
- 2012
- 2012
- English.
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In: Nano. - 1793-2920. ; 7:6, s. 1250044-
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https://urn.kb.se/re...
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https://doi.org/10.1...
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Abstract
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- We investigate the hydrogen storage capacity of the light transition metal (TM)-decorated metal organic frameworks (MOFs) by performing ab initio density functional theory calculations. We find that among all the light TM elements, divalent Ti and Fe are suitable for decorating MOFs to enhance the hydrogen uptake, considering the H2 binding energy on the TM atom and the reversibly usable number of H2 molecules attached to the metal site. In general, the magnetization of metal atoms undergoes a high-spin to low-spin state transition when H2 molecules are adsorbed, which helps to stabilize the system energetically. By analyzing the projected density of states on each TM atom, it is shown that the d-level shift induced by the ligand field of the adsorbed H2 molecules contributes substantially to the H 2 binding strength. We also study the stability of selected TM-decorated nanostructures against the attack of foreign molecules by examining the energetics of those contaminating molecules around the metal sites.
Keyword
- Hydrogen storage
- metal organic frameworks
- transition metal decoration
Publication and Content Type
- ref (subject category)
- art (subject category)
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Nano
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- By the author/editor
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Hwang, J.
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Park, C.
-
Choi, K.
-
Cha, M. -H
-
Ahuja, Rajeev
-
Kim, D. W.
-
show more...
-
Kim, D. O.
-
Sagong, K.
-
Joung, U. G.
-
Jeong, H.
-
Ihm, J.
-
show less...
- Articles in the publication
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Nano
- By the university
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Uppsala University