2008
DOI: 10.2320/matertrans.mra2007200
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Change of Magnetic Properties and Structure in Fe<SUB>3</SUB>O<SUB>4</SUB> Films on Si Substrates with Annealing Temperature

Abstract: We have investigated the magnetic properties and structure of Fe 3 O 4 films on Si substrates before and after annealing at various temperatures, T a . The saturation magnetization and the coercivity in the Fe 3 O 4 films are observed at all T a . They markedly increase with increasing T a up to 873 K, and their values become maximum at T a ¼ 873 K. Furthermore, they slightly decrease above T a ¼ 873 K. The Fe 3 O 4 phase mainly exists in the films at all T a . In addition, the -Fe 2 O 3 phase (hematite) is al… Show more

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Cited by 6 publications
(5 citation statements)
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“…Accompanying the reduction of Fe, a shift in the Au 4f 7/2 peak from 83.8 to 84.2 eV is seen, as shown in Figure b. This +0.4 eV chemical shift can be explained either by a size effect (in our case, morphological changes observed in TEM) or by gold coordinating with iron forming an intermetallic phase, a similar shift as observed in the Au x In y alloy system …”
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“…Accompanying the reduction of Fe, a shift in the Au 4f 7/2 peak from 83.8 to 84.2 eV is seen, as shown in Figure b. This +0.4 eV chemical shift can be explained either by a size effect (in our case, morphological changes observed in TEM) or by gold coordinating with iron forming an intermetallic phase, a similar shift as observed in the Au x In y alloy system …”
supporting
confidence: 66%
“…Accompanying the reduction of Fe, a shift in the Au 4f 7/2 peak from 83.8 to 84.2 eV is seen, as shown in Figure 3b. This +0.4 eV chemical shift can be explained either by a size effect 40 (in our case, morphological changes observed in TEM) or by gold coordinating with iron forming an intermetallic phase, a similar shift as observed in the Au x In y alloy system. 41 This XPS result indicating the surface reduction of the nano-Fe 3 O 4 hints at a fundamentally new phenomenon in metal/ oxide nanoscience, involving a cooperative size-and metalinduced reduction of oxide nanoparticle surfaces.…”
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confidence: 64%
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