Synthesis and characterization of core@shell (ZnO@γ-Fe2O3) structured nanoparticles with two morphologies

机译：核心壳（ZnOγ-Fe2O3）结构纳米粒子的合成与表征两种形态

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Core-shell ZnO/γ-Fe_2O_3 nanoparticles were prepared via a simple method using forced hydrolysis of acetate metallic salts in a polyol medium. Two types of morphologies can be easily obtained: (i) quasi-spherical ZnO core 20 nm in diameter coated with a continuous shell with 3 nm in length, (ii) rod-like ZnO decorated with γ-Fe2O3 nanoparticles. The ZnO nanorods are 80 nm in diameter and 400 nm in length. The maghemite (γ-Fe2O3) nanoparticles with 5 nm in diameter are strongly bonded to ZnO, well separated from each other and form a monolayer on the surface of ZnO nanorods. In both systems, coating ZnO by γ-Fe2O3 inhibits the surface defects and thus enhances the UV luminescence. The two systems present a superparamagnetic behavior with blocking temperature depending on the morphology: the decorated ZnO nanorods present a blocking temperature around 6 K whereas this temperature is significantly higher (300 K) for spherical core-shell nanoparticles.

机译：通过使用强制水解乙酸盐金属盐在多元醇介质中的简单方法制备核 - 壳ZnO /γ-Fe_2O_3纳米粒子。可以容易地获得两种类型的形态：（i）直径的准球形ZnO芯20nm，其连续壳长度为3nm，（ii）用γ-Fe 2 O 3纳米颗粒装饰的棒状ZnO。 ZnO纳米棒直径为80nm，长度为400nm。直径为5nm的磁性石英（γ-Fe2O3）纳米颗粒与ZnO强烈键合，均匀地彼此分离，并在ZnO纳米棒的表面上形成单层。在两个系统中，γ-Fe2O3涂覆ZnO抑制表面缺陷，从而增强UV发光。这两个系统呈现具有封闭温度的超顺磁性，这取决于形态学：装饰的ZnO纳米棒呈现封闭温度约为6 k，而该温度对于球形芯壳纳米颗粒显着高于（300 k）。

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《SPIE Conference on Oxide-Based Materials and Devices》|2013年||共6页
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作者
Imen Balti; Laila Samia Smiri; Pierre Rabu; Philippe Léone; Eric Gautron; Bruno Viana; Noureddine Jouini;
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中图分类 N-532;
关键词
core-shell; ZnO/γ-Fe_2O_3; rod-like; quasi-spherical; Zinc oxide; Maghemite; Nanoparticles;

机译：核心壳;ZnO /γ-Fe_2O_3;杆状;准球形;氧化锌;磁性石;纳米粒子;纳米粒子;

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Synthesis and characterization of core@shell (ZnO@γ-Fe2O3) structured nanoparticles with two morphologies

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