Publication detail

Probing the surface phase diagram of Fe3O4(001) towards the Fe-rich limit: Evidence for progressive reduction of the surface

NOVOTNÝ, Z. MULAKALURI, N. ÉDES, Z. SCHMID, M. PENTCHEVA, R. DIEBOLD, U. PARKINSON, G.

Original Title

Probing the surface phase diagram of Fe3O4(001) towards the Fe-rich limit: Evidence for progressive reduction of the surface

Type

journal article - other

Language

English

Original Abstract

Reduced terminations of the Fe3O4(001) surface were studied using scanning tunneling microscopy, x-ray photoelectron spectroscopy (XPS), and density functional theory (DFT). Fe atoms, deposited onto the thermodynamically stable, distorted B-layer termination at room temperature (RT), occupy one of two available tetrahedrally coordinated sites per unit cell. Further RT deposition results in Fe clusters. With mild annealing, a second Fe adatom per unit cell is accommodated, though not in the second tetrahedral site. Rather both Fe atoms reside in octahedral coordinated sites, leading to a Fe-dimer termination. At four additional Fe atoms per unit cell, all surface octahedral sites are occupied, resulting in a FeO(001)-like phase. The observed configurations are consistent with the calculated surface phase diagram. Both XPS and DFT+U results indicate a progressive reduction of surface iron from Fe3+ to Fe2+ upon Fe deposition. The antiferromagnetic FeO layer on top of ferromagnetic Fe3O4(001) suggests possible exchange bias in this system.

Keywords

Oxide surfaces; Iron Oxides, STM, DFT, XPS

Authors

NOVOTNÝ, Z.; MULAKALURI, N.; ÉDES, Z.; SCHMID, M.; PENTCHEVA, R.; DIEBOLD, U.; PARKINSON, G.

RIV year

2013

Released

8. 5. 2013

ISBN

1098-0121

Periodical

PHYSICAL REVIEW B

Year of study

87

Number

19

State

United States of America

Pages from

195410-1

Pages to

195410-8

Pages count

8