An ab initio study of platinum hydrogen interaction
Potential energy surfaces of the ground state ³D(5d(9)6s¹) and the first excited state ¹S(5d10) of the Pt-H2 interaction are calculated by using variational and perturbative MRCI and pseudopotential relativistic methodologies in order to obtain the distances and the energies of adsorption. Reaction mechanisms between Pt and H2 are established. Hydrogen H2 and oxygen O2 are the fuels used in a commercial fuel cell, where the proper mechanism of hydrogen storage is actually a process that is complicated to find. Thus, theoretical calculations can be very useful in these designs. The potential energy surfaces involved in these processes are obtained, and the probability of transition between them is obtained by means of Landau-Zener Theory. Futhermore, the physisorption of the hydrogen molecule H2 on platinum Pt metal atom, and the chemisorption of the two hydrogen atoms on Pt are obtained and explained.
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Sociedad Mexicana de Física
2006
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oai:scielo:S0035-001X20060005000012008-08-01An ab initio study of platinum hydrogen interactionPacheco,J.H.Bravo,A.Novara,O. Nonadiabatic transition probability avoided crossing hydrogen chemisorpton hydrogen physisorption Potential energy surfaces of the ground state ³D(5d(9)6s¹) and the first excited state ¹S(5d10) of the Pt-H2 interaction are calculated by using variational and perturbative MRCI and pseudopotential relativistic methodologies in order to obtain the distances and the energies of adsorption. Reaction mechanisms between Pt and H2 are established. Hydrogen H2 and oxygen O2 are the fuels used in a commercial fuel cell, where the proper mechanism of hydrogen storage is actually a process that is complicated to find. Thus, theoretical calculations can be very useful in these designs. The potential energy surfaces involved in these processes are obtained, and the probability of transition between them is obtained by means of Landau-Zener Theory. Futhermore, the physisorption of the hydrogen molecule H2 on platinum Pt metal atom, and the chemisorption of the two hydrogen atoms on Pt are obtained and explained.info:eu-repo/semantics/openAccessSociedad Mexicana de FísicaRevista mexicana de física v.52 n.5 20062006-10-01info:eu-repo/semantics/othertext/htmlhttp://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S0035-001X2006000500001en |
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| author |
Pacheco,J.H. Bravo,A. Novara,O. |
| spellingShingle |
Pacheco,J.H. Bravo,A. Novara,O. An ab initio study of platinum hydrogen interaction |
| author_facet |
Pacheco,J.H. Bravo,A. Novara,O. |
| author_sort |
Pacheco,J.H. |
| title |
An ab initio study of platinum hydrogen interaction |
| title_short |
An ab initio study of platinum hydrogen interaction |
| title_full |
An ab initio study of platinum hydrogen interaction |
| title_fullStr |
An ab initio study of platinum hydrogen interaction |
| title_full_unstemmed |
An ab initio study of platinum hydrogen interaction |
| title_sort |
ab initio study of platinum hydrogen interaction |
| description |
Potential energy surfaces of the ground state ³D(5d(9)6s¹) and the first excited state ¹S(5d10) of the Pt-H2 interaction are calculated by using variational and perturbative MRCI and pseudopotential relativistic methodologies in order to obtain the distances and the energies of adsorption. Reaction mechanisms between Pt and H2 are established. Hydrogen H2 and oxygen O2 are the fuels used in a commercial fuel cell, where the proper mechanism of hydrogen storage is actually a process that is complicated to find. Thus, theoretical calculations can be very useful in these designs. The potential energy surfaces involved in these processes are obtained, and the probability of transition between them is obtained by means of Landau-Zener Theory. Futhermore, the physisorption of the hydrogen molecule H2 on platinum Pt metal atom, and the chemisorption of the two hydrogen atoms on Pt are obtained and explained. |
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Sociedad Mexicana de Física |
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2006 |
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http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S0035-001X2006000500001 |
| work_keys_str_mv |
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| _version_ |
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