Abstract
In the present investigation, interaction of ruthenium (Ru) atoms with fluorine (F) atoms was studied using the density functional theory utilizing B3LYP method. It was found that up to seven F atoms can bind to a single Ru atom which results in increase of electron affinities successively, reaching a peak value of 6 center dot 95 eV for RuF6. Its stability and reactivity were also examined by using HOMO-LUMO gap, molecular orbital analysis and binding energy of these clusters. It is found that energy required for dissociation of F-2 molecules are higher than energy required for dissociation of F atoms. The unusual properties are attributed to the involvement of inner shell 4d-electrons, which not only allow RuF (n) clusters to belong to the class of superhalogens but also show that its valence can exceed the nominal value of 1. The interaction of RuF4 superhalogen with an alkali atom lithium (Li) were also studied which suggests that a new class of salt can be synthesized by reacting RuF4 with Li.