Facile synthesis of capped γ-Fe2</sub>O3</sub> and Fe3</sub>O4</sub> nanoparticles

A. B. Bourlinos; A. Bakandritsos; V. Georgakilas; V. Tzitzios; D. Petridis

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Facile synthesis of capped γ-Fe2O3 and Fe3O4 nanoparticles

机译：封端的γ-Fe2 O3 和Fe3 O4 纳米粒子的简便合成

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Facile methods for the selective preparation of capped iron oxide nanoparticles (γ-Fe2O3, Fe3O4) are described. The magnetic oxides are obtained via oxidative transformation of an iron hydroxide gel using H2O2 or (NH4)2S2O8 solutions as oxidants. Capping with oleic or other aliphatic acids is established simultaneously in one step by adding a toluene solution of the capping agent and refluxing the resulting biphase system. The method is simple, soft and affords nanoparticles of γ-Fe2O3 or Fe3O4 of controlled size depending on the reaction conditions. The capped nanoparticles are readily soluble in organic or aqueous media according to the nature of the sheath surrounding the surface of the particles, providing stable and high concentration ferrofluids.

机译：描述了选择性制备封端的氧化铁纳米粒子（γ-Fe2 O3 ，Fe3 O4 ）的简便方法。磁性氧化物是通过使用H2 O2 或（NH4 ）2 S2 O8 溶液作为氧化剂对氢氧化铁凝胶进行氧化转化而获得的。通过添加封端剂的甲苯溶液并使所得的双相体系回流，在一个步骤中同时建立了用油酸或其他脂族酸的封端。该方法简单，柔软，可根据反应条件制备大小可控制的γ-Fe2 O3 或Fe3 O4 纳米颗粒。根据围绕颗粒表面的鞘的性质，封端的纳米颗粒易于溶于有机或水性介质中，从而提供稳定且高浓度的铁磁流体。

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《Journal of Materials Science》 |2006年第16期|5250-5256|共7页
作者
A. B. Bourlinos; A. Bakandritsos; V. Georgakilas; V. Tzitzios; D. Petridis;
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Institute of Materials Science NCSR ‘‘Demokritos’’;

Institute of Materials Science NCSR ‘‘Demokritos’’;

Institute of Materials Science NCSR ‘‘Demokritos’’;

Institute of Materials Science NCSR ‘‘Demokritos’’;

Institute of Materials Science NCSR ‘‘Demokritos’’;

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Facile synthesis of capped γ-Fe2O3 and Fe3O4 nanoparticles

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