Hall effect in cobalt-doped TiO$_{2-\delta}$

D. Chiba; D.H. Kim; H. Ueda; J. S. Higgins; R. L. Greene; S. B. Ogale; S. Chambers; S. R. Shinde; S.R. Shinde; T. Venkatesan; Y. Matsumoto; Z. Wang

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Hall effect in cobalt-doped TiO $_{2-\delta}$

Authors: D. Chiba
D.H. Kim
H. Ueda
J. S. Higgins
R. L. Greene
S. B. Ogale
S. Chambers
S. R. Shinde
S.R. Shinde
T. Venkatesan
Y. Matsumoto
Z. Wang
Publication date: 3 November 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We report Hall effect measurements on thin films of cobalt-doped TiO

_{2-\delta}

. Films with low carrier concentrations (10

^{18}

- 10

^{19}

) yield a linear behavior in the Hall data while those having higher carrier concentrations (10

^{21}

- 10

^{22}

) display anomalous behavior near zero field. In the entire range of carrier concentration, n-type conduction is observed. The appearance of the anomalous behavior is accompanied by a possible structural change from rutile TiO

_{2}

to Ti_[n}O

_{2n-1}

Magneli phase(s)

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Hall effect in cobalt-doped TiO2−δ_{2-\delta}2−δ​