The growth of interface-stabilized cobalt oxide (CoOx) nanolayers on Pd(100) has been investigated and their structures are reported as a function of coverage. Several different phases have been observed by LEED and STM experiments, and they have been characterized spectroscopically by photoemission and X-ray absorption. The data indicate that in the low coverage regime (up to ΘCo ≈ 2–3 ML) rock-salt CoO type phases are formed (defective in the single layer regime, and stoichiometric in multilayers) with (100) or (111) termination. At higher coverage (ΘCo ≈ 10–20 ML) spinel Co3O4(111) and CoO(100) layers have been detected, in ratios dependent on the preparation conditions. The observed structures are discussed in relation to similar structures reported recently for CoOx films on Ir(100) [W. Meyer et al., J. Phys.: Condens. Matter 20 (2008) 265011]
Cobalt oxide nanolayers on Pd(100): The thickness-dependent structural evolution
AGNOLI, STEFANO;GRANOZZI, GAETANO;
2010
Abstract
The growth of interface-stabilized cobalt oxide (CoOx) nanolayers on Pd(100) has been investigated and their structures are reported as a function of coverage. Several different phases have been observed by LEED and STM experiments, and they have been characterized spectroscopically by photoemission and X-ray absorption. The data indicate that in the low coverage regime (up to ΘCo ≈ 2–3 ML) rock-salt CoO type phases are formed (defective in the single layer regime, and stoichiometric in multilayers) with (100) or (111) termination. At higher coverage (ΘCo ≈ 10–20 ML) spinel Co3O4(111) and CoO(100) layers have been detected, in ratios dependent on the preparation conditions. The observed structures are discussed in relation to similar structures reported recently for CoOx films on Ir(100) [W. Meyer et al., J. Phys.: Condens. Matter 20 (2008) 265011]
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