P. Sandl scite author profile

The sticking coefficient of atomic hydrogen at T G = 1815 K on a Cu(l 10) surface has been determined to be 18%. In addition to the buildup of a chemisorption layer the absorption of atomic H into subsurface sites is observed. The subsurface sites are thermally less stable than the chemisorption sites. Model calculations for the phononic energy transfer and estimates for the parallel momentum transfer as well as for electron-hole pair excitation indicate that the first two mechanisms dominate the accommodation process.

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Surface states, local bonding, and surface reconstruction: Na on Cu(110)

Sandl

Bertel

1994

Surface Science

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Halogen–metal interaction: bromine on Pt(110)

et al. 2000

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P. Sandl

Electron and hole doping in NiO

Sticking, adsorption, and absorption of atomic H on Cu(110)

Surface states, local bonding, and surface reconstruction: Na on Cu(110)

Halogen–metal interaction: bromine on Pt(110)

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