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Synthesis and characterization of silver molybdate nanowires, nanorods and multipods

机译：银钼酸盐纳米线，纳米棒和多端子的合成与表征

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Silver molybdate nanowires, nanorods and multipods like structures have been prepared by an organic free hydrothermal process using ammonium molybdate and silver nitrate solutions. The powder X-ray diffraction (PXRD) patterns reveal that the silver molybdate belongs to anorthic structure. The thickness, 200-500 nm, for silver molybdate nanorods/wires and 2-5 Î¼m for microrods are identified from SEM images. UV-visible spectrum of silver molybdate nanorods/nanowires shows maximum absorbance at 408 nm. Photoluminescence (PL) spectrum exhibits UV emission at 335 nm, violet emission at 408 nm and a weak green emission at 540 nm. The influence of hydrothermal synthesis conditions on silver molybdate nanowires, nanorods and multipods compositions were established. Â© Indian Academy of Sciences.

机译：使用钼酸铵和硝酸银溶液，通过有机游离水热方法制备银钼酸酯纳米线，纳米棒和多样化物。粉末X射线衍射（PXRD）图案显示银钼酸盐属于经济性结构。从SEM图像识别厚度为200-500nm，用于微型钼酸盐纳米棒/线和2-5°M的微频率。银钼酸盐纳米棒/纳米线的UV可见光谱显示在408nm处的最大吸光度。光致发光（PL）光谱在335nm处表现出UV发射，408nm处的紫色发射和540nm处的绿色发射弱。建立了水热合成条件对银钼酸盐纳米线，纳米棒和多端子组合物的影响。 ©印度科学院。

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G. Nagaraju; G. T. Chandrappa; Jacques Livage;
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年度 2008
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1. Synthesis and characterization of silver molybdate nanowires, nanorods and multipods [J] . G Nagaraju, G T Chandrappa, Jacques Livage Bulletin of materials science . 2008,第3期

机译：银钼酸盐纳米线，纳米棒和多端子的合成与表征
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3. Selectie Synthesis and Characterization of Single-Crystal Silver Molybdate/Tungstate Nanowires by a Hydrothermal Process [J] . Xianjin Cui, Shu-Hong Yu, Lingling Li, Chemistry: A European journal . 2004,第1期

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Synthesis and characterization of silver molybdate nanowires, nanorods and multipods

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