The reduction and oxidation of Fe2O3(0001) surface investigated by scanning tunneling microscopy

Article ID	Journal	Published Year	Pages	File Type
5422629	Surface Science	2013	6 Pages	PDF

Abstract

âº Fe2O3(0001) surface is reduced into Fe3O4(111) by sputtering and vacuum annealing. âº The depth of reduction increases with repeated annealing in vacuum. âº Fe3O4(111) layers are oxidized to a honeycomb superstructure by annealing in O2. âº The oxidation only occurs partially on top with FeO and Fe2O3 domainscoexisting.

Keywords

Iron oxides Annealing treatment Oxide surface Surface phases Scanning tunneling microscopy

Related Topics

Physical Sciences and Engineering Chemistry Physical and Theoretical Chemistry

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The reduction and oxidation of Fe2O3(0001) surface investigated by scanning tunneling microscopy

Authors

Yuanyuan Tang, Huajun Qin, Kehui Wu, Qinlin Guo, Jiandong Guo,