Effect of w-doping on morphology, structural and optical properties of zno nanostructures synthesized via thermal evaporation

Eshghi H.; Arjmand Y.

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Effect of w-doping on morphology, structural and optical properties of zno nanostructures synthesized via thermal evaporation

机译：w掺杂对热蒸发合成zno纳米结构的形貌，结构和光学性质的影响

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Undoped and W-doped ZnO nanostructures were prepared by heating Zn and WO _3 powders in the presence of oxygen gas without any catalyst, using the thermal evaporation method at 950°C. Samples were characterized by FESEM images, also EDS, XRD and PL spectra. FESEM images showed the formation of nanowires in the undoped sample and porous nanostructures as flat-surface granules with various sizes in the doped samples. XRD spectra of the samples confirmed the formation of wurtzite hexagonal structure with (002) as the preferred orientation, while its intensity has reduced as the doping concentration has increased. Meanwhile, the room temperature PL spectra have indicated this variation is in conjunction with the reduction in the intensity of UV emission and appearance of a violet emission at 420 nm (2.95 eV).

机译：通过在950°C下使用热蒸发法在无任何催化剂的情况下在氧气存在下加热Zn和WO _3粉末来制备未掺杂和W掺杂的ZnO纳米结构。样品通过FESEM图像，EDS，XRD和PL光谱进行表征。 FESEM图像显示在未掺杂样品中形成纳米线，并在掺杂样品中形成具有各种尺寸的平面颗粒的多孔纳米结构。样品的XRD谱图证实了以（002）为优选取向的纤锌矿六方结构的形成，而其强度随着掺杂浓度的增加而降低。同时，室温PL光谱表明，这种变化与420 nm（2.95 eV）处的紫外线发射强度的降低和紫光发射的出现有关。

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《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2012年第27期|共8页
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Eshghi H.; Arjmand Y.;
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正文语种 eng
中图分类应用物理学;
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61.05.cp; 73.50.Jt ? 2012 World Scientific Publishing Company; 78.20.-e; nanostructures; photoluminescence 68.55.-a; W-doped; ZnO;

机译：61.05.cp;73.50.Jt吗？ 2012世界科学出版公司;78.20.-e;纳米结构;光致发光68.55.-a;W掺杂;ZnO;

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1. Effect of w-doping on morphology, structural and optical properties of zno nanostructures synthesized via thermal evaporation [J] . Eshghi H., Arjmand Y. Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2012,第27期

机译：w掺杂对热蒸发合成zno纳米结构的形貌，结构和光学性质的影响
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Effect of w-doping on morphology, structural and optical properties of zno nanostructures synthesized via thermal evaporation

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