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Growth and photoluminescence character research of aluminum nitride nanowires upon carbon foam substrate

Cheng Sai Lü Hui-Min Shi Zhen-Hai Cui Jing-Ya

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Growth and photoluminescence character research of aluminum nitride nanowires upon carbon foam substrate

Cheng Sai, Lü Hui-Min, Shi Zhen-Hai, Cui Jing-Ya
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  • To simplify preparation process of AlN/C composite foam, AlN nanomaterials are prepared via double decomposition reaction and then 800℃ annealing process to recrystallize hexagonal AlN (h-AlN) nanowires on carbon foam substrate. Fore the morphology characterization it follows that, h-AlN nanowires with straight cylindrical morphology grow along the [001]direction on carbon microspheres surface and are about 50 nm in diameter and several micrometers in length. Meanwhile, the growth mechanism of nanowire is interpreted as vapor-liquid-solid(VLS) process. The photoluminescence(PL) spectrum of as-prepared sample also researched, and the results show that a sharp photoluminescence peak appears at 423 nm and shifts toward the red side with temperature increasing. The peak is attributed to the transition luminescence, owing to the substitution of C for N impurity energy level. The sample has good PL character in purple light band and is potential to be used the in photodetector field.
    • Funds: Project supported by the National Natural Science Foundation of China (Grant No. 11074200).
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    [2]

    Taniyasu Y, Kasu M 2011 Appl. Phys. Lett. 98 131910

    [3]

    Lv H M, Chen G D, Yan G J, Ye H G 2007 Chinese Physics 16 2814

    [4]

    Li Z J, Tian M, He L L 2011 Acta Phys. Sin. 60 098101 (in Chinese) [李志杰, 田鸣, 贺连龙 2011 60 098101]

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    Gao X Q, Guo Z Y, Cao D X, Zhang Y F, Sun H Q, Deng B 2010 Acta Phys. Sin. 59 3418 (in Chinese) [高小奇, 郭志友, 曹东兴, 张宇飞, 孙慧卿, 邓贝 2010 59 3418]

    [6]

    Kida M, Weber L, Monachon C, Mortensen A 2011 J. Appl. Phys. 109 64907

    [7]

    Shen L H, Cui Q L, Cheng T M 2008 Electronic Components and Materials 27 78 (in Chinese) [沈龙海, 崔启良, 成泰民 2008 电子元件与材料 27 78]

    [8]

    Yang S L, Gao R S, Yu R H 2009 Rare Metal Materials and Engineering 38 991 (in Chinese) [杨松林, 高润生, 于荣海 2009 稀有金属材料与工程 38 991]

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    Bao Y, Zhan L, Wang C, Wang Y, Qiao W, Ling L 2011 Mater. Lett. 65 3154

    [13]

    Zhang S, Liu M, Gan L, Wu F, Xu Z, Hao Z, Chen L 2010 New Carbon Mater. 25 9

    [14]

    Luo R, Ni Y, Li J, Yang C, Wang S 2011 Mater. Sci. Eng. A 528 2023

    [15]

    Li W Q, Zhang H B, Xiong X, Xiao F 2010 Mater. Sci. Eng. A 527 2993

    [16]

    Xu S, Qiao G, Wang H, Li D, Lu T 2008 Mater. Lett. 62 4549

    [17]

    Tian Z, Li K Z, Li H J, Shi Z H 2008 J. Inorg. Mater. 23 1171 (in Chinese) [田卓, 李克智, 李贺军, 石振海 2008 无机材料学报 23 1171]

    [18]

    Erley G, Gorer S, Penner R M 1998 Appl. Phys. Lett. 72 2301

    [19]

    Zhao C, Lv H M, Wei P 2011 Carbon Techniques 30 10 (in Chinese) [赵超, 吕惠民, 魏萍 2011 炭素技术 30 10]

    [20]

    Lv H M, Shi Z H, Zhao C, Wei P 2010 Acta Phys. Sin. 59 7956 (in Chinese) [吕惠民, 石振海, 赵超, 魏萍 2010 59 7956]

    [21]

    Shi Z H, Li K Z, Li H J, Wang C, Li Z Q 2005 J. Funct. Mater. 36 1944 (in Chinese) [石振海, 李克智, 李贺军, 王闯, 李照谦 2005 功能材料 36 1944]

    [22]

    Zhang Y F, Sun Y L 2010 Coal Conversion 33 19 (in Chinese) [张永发, 孙亚玲 2010 煤炭转化 33 19]

    [23]

    Tansley T L, Egan R J 1992 Phys. Rev. B 45 10942

    [24]

    Hou X, Yue C, Kumar Singh A, Zhang M, Chou K 2010 J. Solid State Chem. 183 963

    [25]

    Jung W, Uk Joo H 2005 J. Cryst. Growth 285 566

  • [1]

    Slack G A, McNelly T F 1976 J. Cryst. Growth 34 263

    [2]

    Taniyasu Y, Kasu M 2011 Appl. Phys. Lett. 98 131910

    [3]

    Lv H M, Chen G D, Yan G J, Ye H G 2007 Chinese Physics 16 2814

    [4]

    Li Z J, Tian M, He L L 2011 Acta Phys. Sin. 60 098101 (in Chinese) [李志杰, 田鸣, 贺连龙 2011 60 098101]

    [5]

    Gao X Q, Guo Z Y, Cao D X, Zhang Y F, Sun H Q, Deng B 2010 Acta Phys. Sin. 59 3418 (in Chinese) [高小奇, 郭志友, 曹东兴, 张宇飞, 孙慧卿, 邓贝 2010 59 3418]

    [6]

    Kida M, Weber L, Monachon C, Mortensen A 2011 J. Appl. Phys. 109 64907

    [7]

    Shen L H, Cui Q L, Cheng T M 2008 Electronic Components and Materials 27 78 (in Chinese) [沈龙海, 崔启良, 成泰民 2008 电子元件与材料 27 78]

    [8]

    Yang S L, Gao R S, Yu R H 2009 Rare Metal Materials and Engineering 38 991 (in Chinese) [杨松林, 高润生, 于荣海 2009 稀有金属材料与工程 38 991]

    [9]

    Zhang Q X, Wang Y F, Wang H J 1998 The Chinese Journal of Nonferrous Metals 8 177 (in Chinese) [章桥新, 王玉伏, 汪惠娟 1998 中国有色金属学报 8 177]

    [10]

    Yang S L, Niu P L,Yu R H 2010 J. Chin. Ceram. Soc. 38 1297 (in Chinese) [杨松林, 牛培利, 于荣海 2010 硅酸盐学报 38 1297]

    [11]

    Ford W 1964 U.S. Patent 3121050

    [12]

    Bao Y, Zhan L, Wang C, Wang Y, Qiao W, Ling L 2011 Mater. Lett. 65 3154

    [13]

    Zhang S, Liu M, Gan L, Wu F, Xu Z, Hao Z, Chen L 2010 New Carbon Mater. 25 9

    [14]

    Luo R, Ni Y, Li J, Yang C, Wang S 2011 Mater. Sci. Eng. A 528 2023

    [15]

    Li W Q, Zhang H B, Xiong X, Xiao F 2010 Mater. Sci. Eng. A 527 2993

    [16]

    Xu S, Qiao G, Wang H, Li D, Lu T 2008 Mater. Lett. 62 4549

    [17]

    Tian Z, Li K Z, Li H J, Shi Z H 2008 J. Inorg. Mater. 23 1171 (in Chinese) [田卓, 李克智, 李贺军, 石振海 2008 无机材料学报 23 1171]

    [18]

    Erley G, Gorer S, Penner R M 1998 Appl. Phys. Lett. 72 2301

    [19]

    Zhao C, Lv H M, Wei P 2011 Carbon Techniques 30 10 (in Chinese) [赵超, 吕惠民, 魏萍 2011 炭素技术 30 10]

    [20]

    Lv H M, Shi Z H, Zhao C, Wei P 2010 Acta Phys. Sin. 59 7956 (in Chinese) [吕惠民, 石振海, 赵超, 魏萍 2010 59 7956]

    [21]

    Shi Z H, Li K Z, Li H J, Wang C, Li Z Q 2005 J. Funct. Mater. 36 1944 (in Chinese) [石振海, 李克智, 李贺军, 王闯, 李照谦 2005 功能材料 36 1944]

    [22]

    Zhang Y F, Sun Y L 2010 Coal Conversion 33 19 (in Chinese) [张永发, 孙亚玲 2010 煤炭转化 33 19]

    [23]

    Tansley T L, Egan R J 1992 Phys. Rev. B 45 10942

    [24]

    Hou X, Yue C, Kumar Singh A, Zhang M, Chou K 2010 J. Solid State Chem. 183 963

    [25]

    Jung W, Uk Joo H 2005 J. Cryst. Growth 285 566

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Publishing process
  • Received Date:  14 September 2011
  • Accepted Date:  03 November 2011
  • Published Online:  05 June 2012

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