Growth and characterization of stoichiometric tungsten oxide nanorods by thermal evaporation and subsequent annealing

Senthil K; Yong K

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Growth and characterization of stoichiometric tungsten oxide nanorods by thermal evaporation and subsequent annealing

机译：通过化学蒸发和随后的退火来生长和表征化学计量的氧化钨纳米棒

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Stoichiometric tungsten oxide (WO3) nanorods are synthesized on tungsten ( W) substrates by a high- temperature, catalyst- free, physical deposition process and by subsequent annealing in oxygen atmosphere. Tungsten oxide nanorods are grown by thermal evaporation of WO3 powder at elevated temperature in a tube furnace. XRD, TEM and XPS analysis shows that the as-grown nanorods are single crystalline and non-stoichiometric ( WOx). Annealing of WOx nanorods at 700 degrees C under oxygen atmosphere has led to the formation of stoichiometric WO3 as evidenced by XRD, XPS and Raman analysis.

机译：通过高温，无催化剂的物理沉积工艺以及随后在氧气气氛中进行的退火，可以在钨（W）基板上合成化学计量的氧化钨（WO3）纳米棒。通过在管式炉中在高温下热蒸发WO3粉末来生长氧化钨纳米棒。 XRD，TEM和XPS分析表明，所生长的纳米棒是单晶且非化学计量的（WOx）。 X射线衍射，XPS和拉曼分析证明，WOx纳米棒在氧气气氛下在700摄氏度下退火导致化学计量的WO3形成。

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《Nanotechnology》 |2007年第39期|共7页
作者
Senthil K; Yong K;
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正文语种 eng
中图分类一般工业技术;
关键词
A-WO3-Y THIN-FILMS; OXIDATION-STATES; AMORPHOUS WO3; NANOWIRES; SPECTROSCOPY; COLORATION; TEMPERATURE; MECHANISM; PRESSURE; POWDERS;

机译：A-WO3-Y薄膜;氧化态;非晶态WO3;纳米;光谱学;着色;温度;机理;压力;粉末;

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1. Growth and characterization of stoichiometric tungsten oxide nanorods by thermal evaporation and subsequent annealing [J] . Senthil K, Yong K Nanotechnology . 2007,第39期

机译：通过化学蒸发和随后的退火来生长和表征化学计量的氧化钨纳米棒
2. Synthesis and characterization of tungsten oxide nanorods from chemical vapor deposition-grown tungsten film by low-temperature thermal annealing [J] . Seongho Jeon, Kijung Yong Journal of Materials Research . 2008,第5期

机译：化学气相沉积生长钨膜低温热退火法合成和表征氧化钨纳米棒
3. Growth and characterization of molybdenum oxide nanorods by RF magnetron sputtering and subsequent annealing [J] . I Navas, R Vinodkumar, K J Lethy, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2009,第17期

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5. Crystal growth and characterization of off-stoichiometric tungsten diselenide single crystal. [D] . Dave, Yogini M. 1992

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Growth and characterization of stoichiometric tungsten oxide nanorods by thermal evaporation and subsequent annealing

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