Metal Ions Induce Growth and Magnetism Alternation of [alpha]-Fe2O3 Crystals Bound by High-Index Facets
In this study, quasi-cubic and hexagonal bipyramid [alpha]-Fe2O3 polyhedrons with high-index facets exposed were controllably synthesized by applying metal ions Zn2+ or Cu2+ as structure-directing agents. The growth of the [alpha]-Fe2O3 nanostructures with high-index facets were induced by metal ion...
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| Veröffentlicht in: | Chemistry : a European journal 2012-07, Vol.18 (29), p.8957 |
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| creator | Liu, Rongmei Jiang, Yuanwen Fan, Hao Lu, Qingyi Du, Wei Gao, Feng |
| description | In this study, quasi-cubic and hexagonal bipyramid [alpha]-Fe2O3 polyhedrons with high-index facets exposed were controllably synthesized by applying metal ions Zn2+ or Cu2+ as structure-directing agents. The growth of the [alpha]-Fe2O3 nanostructures with high-index facets were induced by metal ions without the addition of any other surfactants. The quasi-cubic form controlled by Zn2+ looks like a cube but has an angle of approximately 86° bound by (012), (10-2), and (1-12) facets, whereas the hexagonal bipyramid form controlled by Cu2+ has a sixfold axis bound by {012} facets. Magnetic measurements confirm that these two kinds of nanocrystals display shape- and surface-dependent magnetic behaviors. The hexagonal bipyramid iron oxide nanocrystals show a lower Morin transition temperature of 240K and might be spin-canted ferromagnetically controlled at room temperature, and the ferromagnetism disappears at low temperature. The quasi-cubic nanocrystals have a splitting between FC curve and ZFC curve from the highest experimental temperature and no Morin transformation occurs; this indicates that they would be defect ferromagnetically controlled at low temperature. The reported metal-ion-directing technique could provide a universal method for shape- and surface-controlled synthesis of nanocrystals with high-index facets exposed. |
| doi_str_mv | 10.1002/chem.201201108 |
| format | Article |
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The growth of the [alpha]-Fe2O3 nanostructures with high-index facets were induced by metal ions without the addition of any other surfactants. The quasi-cubic form controlled by Zn2+ looks like a cube but has an angle of approximately 86° bound by (012), (10-2), and (1-12) facets, whereas the hexagonal bipyramid form controlled by Cu2+ has a sixfold axis bound by {012} facets. Magnetic measurements confirm that these two kinds of nanocrystals display shape- and surface-dependent magnetic behaviors. The hexagonal bipyramid iron oxide nanocrystals show a lower Morin transition temperature of 240K and might be spin-canted ferromagnetically controlled at room temperature, and the ferromagnetism disappears at low temperature. The quasi-cubic nanocrystals have a splitting between FC curve and ZFC curve from the highest experimental temperature and no Morin transformation occurs; this indicates that they would be defect ferromagnetically controlled at low temperature. The reported metal-ion-directing technique could provide a universal method for shape- and surface-controlled synthesis of nanocrystals with high-index facets exposed.</description><identifier>ISSN: 0947-6539</identifier><identifier>EISSN: 1521-3765</identifier><identifier>DOI: 10.1002/chem.201201108</identifier><identifier>CODEN: CEUJED</identifier><language>eng</language><publisher>Weinheim: Wiley Subscription Services, Inc</publisher><subject>Chemistry</subject><ispartof>Chemistry : a European journal, 2012-07, Vol.18 (29), p.8957</ispartof><rights>Copyright © 2012 WILEY-VCH Verlag GmbH & Co. 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| title | Metal Ions Induce Growth and Magnetism Alternation of [alpha]-Fe2O3 Crystals Bound by High-Index Facets |
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