A Relativistic DFT Study of Water Adsorption on delta-Plutonium (111) Surface
classification
❄️ cond-mat.mtrl-sci
cond-mat.str-el
keywords
watersurfaceadsorptiondelta-plutoniumdissociatedelectronsmolecularorbital
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Scalar-relativistic DFT-GGA has been used to study adsorption of water in molecular and dissociative configurations on delta-Plutonium (111) surface. In molecular state, water is physisorbed in an almost flat-lying orientation at a one-fold coordinated on-top site. The interaction of the water 1b1 orbital and the Pu-6d orbital provides the stability of water on the surface, implying that the Pu-5f electrons remain chemically inert. The co-adsorption cases of partially dissociated and fully dissociated products at the three-fold hollow sites yield chemisorption, coupled with rumpling of the surface layer and delocalization of the Pu-5f electrons and formation of strong ionic bonds.
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