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Chin J Mater Res  2008, Vol. 22 Issue (6): 577-579    DOI:
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Synthesizing metallic tungsten nanowires array
 GAO Cheng; HE Yuehui; WANG Shiliang
State Key Laboratory Powder Metallurgy; Central South University; Changsha 410083
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GAO Cheng; HE Yuehui; WANG Shiliang. Synthesizing metallic tungsten nanowires array. Chin J Mater Res, 2008, 22(6): 577-579.

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Abstract  

Metallic tungsten array can be successfully synthesized on the silicon substrate by vapor method at low temperature (900 °C). SEM、TEM and XRD analysis results of tungsten nanowires synthesized under 900 °C show: the synthesized nanowires have diameters of 150 nm, and lengths of 10- 30 μm. the nanowires show well-defined bcc single-crystalline structure with growth direction along <111>.
Key words:  metallic materials      metallic tungsten      single-crystal      nanowire      array     
Received:  04 March 2008     
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GAO Cheng
HE Yuehui
WANG Shiliang

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1 ZHANG Baosheng, KANG Zhijun, The penetration properties and applications of high density tungsten heavy alloys, China Tungsten Industry, 14(5-6), 178(1999)
(张宝生, 康志君, 高密度钨合金的穿甲特性及其应用, 中国钨业, 14(5-6), 178(1999))
2 S.Lijima, Helical microtubules of graphitic carbon, Nature., 354(6348), 56(1991)
3 D.Appell, Nanotechnology: wired for success, Nature., 419(6907), 553-555(2002)
4 A.G..Umnov, Y.Shiratori, H.Hiraoka, Giant field amplification in tungsten nanowires, Applied Physics A Materials Science & Processing., 77(1), 159(2003)
5 Y.H.Lee, C.H.Choi, Y.T.Jang, E.K.Kim, B.K.Ju, N.K.Min, J.H.Ahn, Tungsten nanowires and their field electron emission properties, Appl. Phys. Lett., 81(4), 745(2002)
6 Y.Saito, K.Hamaguchi, K.Hata, K.Tohji, A.Kasuya, Y.Nishina, K.Uchida, Y.Tasaka, F.Ikazaki, M.Yumura, Field emission from carbon nanotubes; purified singlewalled and multi-walled tubes, Ultramicroscopy., 73(1-4), 1(1998)
7 I.Langmuir, The vapor pressure of metallic tungsten, Phys. Rev., 11(5), 329(1913)
8 B.L.Twu, Fabrication Techniques for Tungsten Cat Whisker Infrared Antennas, Fabricayion Techniques For Antennas., 122(11), 1560(1975)
9 F.Okuyama, Growth of multineedles of tungsten caused by reaction of tungsten oxide with acetone, J. Appl. Phys., 46(8), 3255(1975)
10 J.T.L.Thonga, C.H.Ocn, M.Yeadon, W.D.Zhang, Fieldemission induced growth of nanowires, Appl.Phys.Lett., 81(25), 4823(2002)
11 T.Karabacak,A.Mallikarjunan, J.P.Singh, D.Ye, G.C.Wang, T.M.Lu, b-phase tungsten nanorod formation by oblique-angle sputter deposition, Appl. Phys. Lett., 83(15), 3096(2003)
12 S.Vaddiraju, H.Chandrasekaran, M.K.Sunkara, Vapor phase synthesis of tungsten nanowires, Journal of the American Chemical Society., 125(36), 10792(2003)
13 Y.H.Lee, D.H.Kim, C.H.Choi, Y.T.Jang, B.K.Ju, Growth and electrical properties of multidimensional tungsten nanobuliding blocks, Apply.Phys.Lett., 85(24), 5977(2004)
14 S.L.Wang, Y.H.He, J.Zou, Y.Jiang, J.Xu, B.Y.Huang, C.T.Liu, P.K.Liaw, Synthesis of single-crystalline tungsten nanowires by nickel-catalyzed vapor-phase method at 850 ., Journal of Crystal Growth., 306, 433(2007)
15 XU Jian, HE Yuehui, WANG Shiliang, TANG Yiwu, A novel method for synthesizing metallic tungsten nanoneedles, Chinese Journal of Materials Research, 20(6), 576(2006)
(徐剑, 贺跃辉, 王世良, 汤义武, 一种制备金属钨纳米针的新方法, 材料研究学报, 20(6), 576(2006))
16 S.L.Wang, Y.H.He, J.Zou, Y.Jiang, J.Xu, B.Y.Huang, C.T.Liu, P.K.Liaw, Synthesis of tungsten oxide tapered needles with nanotips., Journal of Crystal Growth., 303(2), 574(2007)
17 Y.H.He, S.L.Wang, B.Y.Huang, C.T.Liu, P.K.Liaw, Novel tungsten oxide microneedles with nanosized tips, Appl. Phys. Lett., 88(22), 223107(2006)
18 Z.W.Pan, Z.R.Dai, Z.L.Wang, Nanobelts of semiconducting oxide science., 291(5510), 1947(2001)
19 Y.Y.Wu, P.D.Yang, Direct observation of vapor-liquidsolid nanowire growth, J. Am. Chem. Soc., 123(13), 3165(2001)
20 Z.L.Wang, X.Y.Kong, J.M.Zuo, Induced growth of asymmetric nanocantilever arrays on polar surfaces, Phys. Rev. Lett., 91(18), 185502(2003)
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