EPJ Web of Conferences (Mar 2013)
Mapping chemical bonding of reaction intermediates with femtosecond X-ray laser spectroscopy
- Schlotter B.,
- Rajkovic I.,
- Radcliffe P.,
- Quevedo W.,
- Odelius M.,
- Nordlund D.,
- Meyer M.,
- Mazza T.,
- Leitner T.,
- Kunnus K.,
- Kennedy B.,
- Josefsson I.,
- Hennies F.,
- Hartsock R.,
- Grübel S.,
- Gaffney K.,
- Düsterer S.,
- de Groot F.,
- Beye M.,
- Wernet Ph.,
- Scholz M.,
- Schreck S.,
- Suljoti E.,
- Techert S.,
- Turner J.,
- Weniger C.,
- Zhang W.,
- Föhlisch A.
Affiliations
- Schlotter B.
- Rajkovic I.
- Radcliffe P.
- Quevedo W.
- Odelius M.
- Nordlund D.
- Meyer M.
- Mazza T.
- Leitner T.
- Kunnus K.
- Kennedy B.
- Josefsson I.
- Hennies F.
- Hartsock R.
- Grübel S.
- Gaffney K.
- Düsterer S.
- de Groot F.
- Beye M.
- Wernet Ph.
- Scholz M.
- Schreck S.
- Suljoti E.
- Techert S.
- Turner J.
- Weniger C.
- Zhang W.
- Föhlisch A.
- DOI
- https://doi.org/10.1051/epjconf/20134105025
- Journal volume & issue
-
Vol. 41
p. 05025
Abstract
We determine the pathways in the photo-dissociation reactions of Fe(CO)5 both in the gas phase and in solution by mapping the valence electronic structure of the reaction intermediates with femtosecond X-ray laser spectroscopy.