Ultrafine Gahnite (znal_2o_4) Nanocrystals: Hydrothermal Synthesis And Photoluminescent Properties

Xiang Ying Chen; Chao Ma; Zhong Jie Zhang; Bai Nian Wang

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Ultrafine Gahnite (znal_2o_4) Nanocrystals: Hydrothermal Synthesis And Photoluminescent Properties

机译：超细钠长石（znal_2o_4）纳米晶体：水热合成和光致发光性能

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We demonstrate a facile but efficient hydrothermal method for the preparation of ultrafine gahnite (ZnAl_3O_4) nanoparticles without post-treatment by varying the reaction parameters, including reaction temperature, reaction time and basic source. These parameters were systematically investigated in terms of XRD and TEM techniques. The experimental results revealed that the reaction temperature and basic source play the crucial roles in obtaining ZnAl_2O_4 sample, whereas the reaction time has minor influence. Significantly, we successfully prepared ZnAl_3O_4 sample at 180 C, using urea as the basic source, which is the lowest reaction temperature ever reported for the preparation of ZnAl_2O_4. In addition, the ZnAl_2O_4 samples prepared under various conditions exhibit strong emission at room temperature.

机译：我们展示了一种简便而有效的水热方法，该方法无需改变反应参数（包括反应温度，反应时间和碱性来源）即可制备超细轻铁矿（ZnAl_3O_4）纳米粒子，而无需进行后处理。根据XRD和TEM技术系统地研究了这些参数。实验结果表明，反应温度和碱源对获得ZnAl_2O_4样品起着至关重要的作用，而反应时间的影响较小。重要的是，我们成功地使用尿素作为碱性来源在180°C下制备了ZnAl_3O_4样品，这是有史以来报道的制备ZnAl_2O_4的最低反应温度。另外，在各种条件下制备的ZnAl_2O_4样品在室温下均表现出强发射。

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《Materials Science and Engineering》 |2008年第3期|224-230|共7页
作者
Xiang Ying Chen; Chao Ma; Zhong Jie Zhang; Bai Nian Wang;
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正文语种 eng
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gahnite; nanomaterials; hydrothermal synthesis; photoluminescence;

机译：钠长石;纳米材料;水热合成;光致发光;

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Ultrafine Gahnite (znal_2o_4) Nanocrystals: Hydrothermal Synthesis And Photoluminescent Properties

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