Thin film growth and Zn doping of h-MoO3 hexagonal rods by hydrothermal technique

Mousavi-Zadeh Seyyed Hamid; Rahmani Mohammad Bagher

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Thin film growth and Zn doping of h-MoO3 hexagonal rods by hydrothermal technique

机译：h-MoO3六角棒水热技术的薄膜生长和Zn掺杂

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In this research, rod-like undoped and Zn doped h-MoO3 thin films were grown on top of MoO3 seed layers, using hydrothermal technique without adding any surfactant. Seed layers of MoO3 were coated on top of glass substrates using spray pyrolysis technique. Structural, morphological and optical properties of thin films were examined. XRD pattern analysis showed that the seed layer has orthorhombic crystal structure. Also, it confirms the formation of hexagonal structure for thin films grown by hydrothermal. FESEM images show the formation of long, well-shaped hexagonal rod-likes. UV-Vis spectroscopy reveals band gap increasing from 3.2 eV to 3.54 eV, by increasing Zn.

机译：在这项研究中，使用水热技术在不添加任何表面活性剂的情况下，在MoO3种子层的顶部生长了棒状的未掺杂和Zn掺杂的h-MoO3薄膜。使用喷雾热解技术将MoO3的种子层涂覆在玻璃基板的顶部。检查了薄膜的结构，形态和光学性质。 XRD图谱分析表明，晶种层具有正交晶结构。而且，它证实了通过水热生长的薄膜的六边形结构的形成。 FESEM图像显示了长而形状良好的六角形棒状体的形成。 UV-Vis光谱显示通过增加Zn，带隙从3.2 eV增加到3.54 eV。

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《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2016年第36期|共7页
作者
Mousavi-Zadeh Seyyed Hamid; Rahmani Mohammad Bagher;
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正文语种 eng
中图分类应用物理学;
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Molybdenum trioxide; hydrothermal; thin films; structural; band gap;

机译：三氧化钼;水热;薄膜;结构;带隙;

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3. Thin film growth and Zn doping of h-MoO3 hexagonal rods by hydrothermal technique [J] . Mousavi-Zadeh Seyyed Hamid, Rahmani Mohammad Bagher Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2016,第36期

机译：h-MoO3六角棒水热技术的薄膜生长和Zn掺杂
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Thin film growth and Zn doping of h-MoO3 hexagonal rods by hydrothermal technique

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