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一维氧化锌纳米结构生长及器件制备研究进展

秦杰明 田立飞 赵东旭 蒋大勇 曹建明 丁梦 郭振

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一维氧化锌纳米结构生长及器件制备研究进展

秦杰明, 田立飞, 赵东旭, 蒋大勇, 曹建明, 丁梦, 郭振

Comprehensive Survey for the Frontier Disciplines

Qin Jie-Ming, Tian Li-Fei, Zhao Dong-Xu, Jiang Da-Yong, Cao Jian-Ming, Ding Meng, Guo Zhen
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  • 介绍了一维氧化锌(ZnO)纳米结构的形态(纳米线和纳米带等)及其特点,阐述了该结构生长及器件制备的方法,例如水热法和化学气相沉积法等. 概述了该结构在发光二极管和纳米发电机等方面的应用进展. 最后,对一维ZnO纳米结构的未来发展趋势进行了展望,并在新方法和新工艺等方面提出了一些建议.
    Morphologies of one-dimensional ZnO nanostructures (nanowires, nanobelts, etc.) and their characteristics are introduced. Methods of growing one-dimensional ZnO nanostructures and the relevant devices are demonstrated comprehensively, e.g. hydrothermal and chemical vapor deposition and so on. Progress in applications including light-emitting diodes and nanogenerators is provided. Finally, the future developing trend of one-dimensional ZnO nanostructures is presented and some novel means, techniques, etc. are also proposed.
    • 基金项目: 内蒙古自然科学基金(批准号:2010MS0105)资助的课题.
    [1]

    Kurbanov S S, Panin G N, Kim T W, Kang T W 2009 Journal of Luminescence 129 1099

    [2]

    Yan C M, Chen Z, Zhao X P 2006 Solid State Communications 140 18

    [3]
    [4]
    [5]

    Stouwdam J W, Janssen R A J 2008 Journal of Materials Chemistry 18 1889

    [6]

    Beek W J E, Wienk M M, Janssen R A J 2004 Advanced Materials 16 1009

    [7]
    [8]

    Wei Z P, Lu Y M, Shen D Z, Zhang Z Z, Yao B, Li B H, Zhang J Y, Zhao D X, Fan X W, Tang Z K 2007 Applied Physics Letters 90 042113

    [9]
    [10]

    Yu Q X, Xu B, Wu Q H, Liao Y, Wang G Z, Fang R C, Lee H Y, Lee C T 2003 Applied Physics Letters 83 4713

    [11]
    [12]

    Chen P L, Ma X Y, Yang D R 2007 Journal of Applied Physics 101 053103-1

    [13]
    [14]

    Du G T, Liu W F, Bian J M, Hu L Z, Liang H W, Wang X S, Liu A M, Yang T P 2006 Applied Physics Letters 89 052103

    [15]
    [16]

    Sun J C, Zhao J Z, Liang H W, Bian J M, Hu L Z, Zhang H Q, Liang X P, Liu W F, Du G T 2007 Applied Physics Letters 90 121128

    [17]
    [18]
    [19]

    Tzemen S, Xiong G, Wilkinson J, Mischuck B, Ucer K B, Williams R T 2001 Physica B-Condensed Matter 308 1197

    [20]
    [21]

    Dong J W, Osinsky A, Hertog B, Dabiran A M, Chow P P, Heo Y W, Norton D P, Pearton S J 2005 Journal of Electronic Materials 34 416

    [22]
    [23]

    Park W I, Yi G C 2004 Advanced Materials 16 87

    [24]

    Alivov Y I, Van Nostrand J E, Look D C, Chukichev M V, Ataev B M 2003 Applied Physics Letters 83 2943

    [25]
    [26]

    Tsukazaki A, Kubota M, Ohtomo A, Onuma T, Ohtani K, Ohno H, Chichibu S F, Kawasaki M 2005 Japanese Journal of Applied Physics Part 2-Letters Express Letters 44 L643

    [27]
    [28]

    Knenkamp R, Word R C, Schlegel C 2004 Applied Physics Letters 85 6004

    [29]
    [30]

    Lim J H, Kang C K, Kim K K, Park I K, Hwang D K, Park S J 2006 Advanced Materials 18 2720

    [31]
    [32]
    [33]

    Knenkamp R, Word R C, Godinez M 2005 Nano Letters 5 2005

    [34]
    [35]

    Guo X L, Choi J H, Tabata H, Kawai T 2001 Japanese Journal of Applied Physics Part 2-Letters 40 L177

    [36]

    Ryu Y R, Lee T S, Lubguban J A, White H W, Kim B J, Park Y S, Youn C J 2006 Applied Physics Letters 88 241108

    [37]
    [38]
    [39]

    Xu W Z, Ye Z Z, Zeng Y J, Zhu L P, Zhao B H, Jiang L, Lu J G, He H P, Zhang S B 2006 Applied Physics Letters 88 173506

    [40]

    Hwang D K, Kang S H, Lim J H, Yang E J, Oh J Y, Yang J H, Park S J 2005 Applied Physics Letters 86 222101

    [41]
    [42]

    Ohta H, Orita M, Hirano M, Hosono H 2001 Journal of Applied Physics 89 5720

    [43]
    [44]
    [45]

    Jiao S J, Zhang Z Z, Lu Y M, Shen D Z, Yao B, Zhang J Y, Li B H, Zhao D X, Fan X W, Tang Z K 2006 Applied Physics Letters 88 031911

    [46]

    Liu W, Gu S L, Ye J D, Zhu S M, Liu S M, Zhou X, Zhang R, Shi Y, Zheng Y D, Hang Y, Zhang C L 2006 Applied Physics Letters 88 092101

    [47]
    [48]
    [49]

    Kim H, Horwitz J S, Kim W H, Mkinen A J, Kafafi Z H, Chrisey D B 2002 Thin Solid Films 420 539

    [50]
    [51]

    Ma X Y, Chen P L, Li D S, Zhang Y Y, Yang D R 2007 Applied Physics Letters 91 251109

    [52]
    [53]

    Huang C H, McCaughan L 1996 Ieee Journal of Selected Topics in Quantum Electronics 2 367

    [54]

    Chia CH, Makino T, Tamura K, Segawa Y, Kawasaki M, Ohtomo A, Koinuma H. 2003 Applied Physics Letters 82 1848

    [55]
    [56]

    Huang CH, McCaughan L 1997 Electronics Letters 33 1639

    [57]
    [58]

    Liang S, Sheng H, Liu Y, Huo Z, Lu Y, Shen H 2001 Journal of Crystal Growth 225 110

    [59]
    [60]
    [61]

    Soci C, Zhang A, Xiang B, Dayeh S A, Aplin D P R, Park J, Bao X Y, Lo Y H, Wang D 2007 Nano Letters 7 1003

    [62]
    [63]

    Liu Y, Gorla C R, Liang S, Emanetoglu N, Lu Y, Shen H, Wraback M 2009 Journal of Electronic Materials 29 69

    [64]
    [65]

    Yang W, Hullavarad S S, Nagaraj B, Takeuchi I, Sharma R P, Venkatesan T, Vispute R D, Shen H 2003 Applied Physics Letters 82 3424

    [66]

    Lee C J, Lee T J, Lyu S C, Zhang Y, Ruh H, Lee H J 2002 Applied Physics Letters 81 3648

    [67]
    [68]
    [69]

    Li S Y, Lin P, Lee C Y, Tseng T Y 2004 Journal of Applied Physics 95 3711

    [70]

    Wan Q, Li Q H, Chen Y J, Wang T H, He X L, Li J P, Lin C L 2004 Applied Physics Letters 84 3654

    [71]
    [72]
    [73]

    Xu J Q, Pan Q Y, Shun Y A, Tian Z Z 2000 Sensors and Actuators B-Chemical 66 277

    [74]

    Ramanathan K, Contreras M A, Perkins C L, Asher S, Hasoon F S, Keane J, Young D, Romero M, Metzger W, Noufi R, Ward J, Duda A 2003 Progress in Photovoltaics 11 225

    [75]
    [76]

    Rensmo H, Keis K, Lindstrm H, Sdergren S, Solbrand A, Hagfeldt A, Lindquist S E, Wang L N, Muhammed M 1997 Journal of Physical Chemistry B 101 2598

    [77]
    [78]

    Pan Z W, Dai Z R, Wang Z L 2001 Science 291 1947

    [79]
    [80]

    Tian Z R R, Voigt J A, Liu J, McKenzie B, McDermott M J, Rodriguez M A, Konishi H, Xu H F 2003 Nature Materials 2 821

    [81]
    [82]
    [83]

    Kong X Y, Ding Y, Yang R, Wang Z L 2004 Science 303 1348

    [84]

    Gao P X, Ding Y, Mai W J, Hughes W L, Lao C S, Wang Z L 2005 Science 309 1700

    [85]
    [86]
    [87]

    Sun H, Zhang Q F, Wu J L 2006 Nanotechnology 17 2271

    [88]
    [89]

    Sun X W, Huang J Z, Wang J X, Xu Z 2008 Nano Letters 8 1219

    [90]

    Yang X Y, Wolcott A, Wang G M, Sobo A, Fitzmorris R C, Qian F, Zhang J Z, Li Y 2009 Nano Letters 9 2331

    [91]
    [92]
    [93]

    Wei Y G, Wu W Z, Guo R, Yuan D J, Das S M, Wang Z L 2010 Nano Letters 10 3414

    [94]
    [95]

    Mora-Ser I, Fabregat-Santiago F, Denier B, Bisquert J, Tena-Zaera R, Elias J, Lvy-Clment C 2006 Applied Physics Letters 89 203117

    [96]
    [97]

    Elias J, Tena-Zaera R, Lvy-Clment C 2008 Journal of Physical Chemistry C 112 5736

    [98]

    Ramirez D, Pauporte T, Gomez H, Lincot D 2008 Physica Status Solidi a-Applications and Materials Science 205 2371

    [99]
    [100]

    Huang M H, Mao S, Feick H, Yan H Q, Wu Y Y, Kind H, Weber E, Russo R, Yang P D 2001 Science 292 189

    [101]
    [102]
    [103]

    Gao P X, Ding Y, Wang I L 2003 Nano Letters 3 1315

    [104]
    [105]

    Tang Y, Zhao D X, Chen J, Wanderka N, Shen D Z, Fang F, Guo Z, Zhang J Y, Wang X H 2010 Materials Chemistry and Physics 121 541

    [106]

    Wang Z Q, Liu X D, Gong J F, Huang H B, Gu S L, Yang S G 2008 Crystal Growth Design 8 3911

    [107]
    [108]

    Wu G S, Xie T, Yuan X Y, Li Y, Yang L, Xiao Y H, Zhang L D 2005 Solid State Communications 134 485

    [109]
    [110]
    [111]

    Chen Y W, Liu Y C, Lu S X, Xu C S, Shao C L, Wang C, Zhang J Y, Lu Y M, Shen D Z, Fan X W 2005 Journal of Chemical Physics 123 134701

    [112]
    [113]

    Jeong M C, Oh B Y, Ham M H, Myoung J M 2006 Applied Physics Letters 88 202105

    [114]

    Chang C Y, Tsao F C, Pan C J, Chi G C, Wang H T, Chen J J, Ren F, Norton D P, Pearton S J, Chen K H, Chen L C 2006 Applied Physics Letters 88 173503

    [115]
    [116]
    [117]

    Fang X, Li J H, Zhao D X, Shen D Z, Li B H, Wang X H 2009 Journal of Physical Chemistry C 113 21208

    [118]

    Guo Z, Zhang H, Zhao D X, Liu Y C, Yao B, Li B H, Zhang Z Z, Shen D Z 2010 Applied Physics Letters 97 173508

    [119]
    [120]
    [121]

    Liu C H, Zapien J A, Yao Y, Meng X M, Lee C S, Fan S S, Lifshitz Y, Lee S T 2003 Advanced Materials 15 838

    [122]
    [123]

    Zimmler M A, Bao J, Capasso F, Mller S, Ronning C 2008 Applied Physics Letters 93 051101

    [124]
    [125]

    Wang Z L, Song J H 2006 Science 312 242

    [126]
    [127]

    Wang X D, Song J H, Liu J, Wang Z L 2007 Science 316 102

    [128]

    Ghosh R, Basak D 2007 Applied Physics Letters 90 243106

    [129]
    [130]
    [131]

    Wang J X, Sun X W, Yang Y, Huang H, Lee Y C, Tan O K, Vayssieres L 2006 Nanotechnology 17 4995

  • [1]

    Kurbanov S S, Panin G N, Kim T W, Kang T W 2009 Journal of Luminescence 129 1099

    [2]

    Yan C M, Chen Z, Zhao X P 2006 Solid State Communications 140 18

    [3]
    [4]
    [5]

    Stouwdam J W, Janssen R A J 2008 Journal of Materials Chemistry 18 1889

    [6]

    Beek W J E, Wienk M M, Janssen R A J 2004 Advanced Materials 16 1009

    [7]
    [8]

    Wei Z P, Lu Y M, Shen D Z, Zhang Z Z, Yao B, Li B H, Zhang J Y, Zhao D X, Fan X W, Tang Z K 2007 Applied Physics Letters 90 042113

    [9]
    [10]

    Yu Q X, Xu B, Wu Q H, Liao Y, Wang G Z, Fang R C, Lee H Y, Lee C T 2003 Applied Physics Letters 83 4713

    [11]
    [12]

    Chen P L, Ma X Y, Yang D R 2007 Journal of Applied Physics 101 053103-1

    [13]
    [14]

    Du G T, Liu W F, Bian J M, Hu L Z, Liang H W, Wang X S, Liu A M, Yang T P 2006 Applied Physics Letters 89 052103

    [15]
    [16]

    Sun J C, Zhao J Z, Liang H W, Bian J M, Hu L Z, Zhang H Q, Liang X P, Liu W F, Du G T 2007 Applied Physics Letters 90 121128

    [17]
    [18]
    [19]

    Tzemen S, Xiong G, Wilkinson J, Mischuck B, Ucer K B, Williams R T 2001 Physica B-Condensed Matter 308 1197

    [20]
    [21]

    Dong J W, Osinsky A, Hertog B, Dabiran A M, Chow P P, Heo Y W, Norton D P, Pearton S J 2005 Journal of Electronic Materials 34 416

    [22]
    [23]

    Park W I, Yi G C 2004 Advanced Materials 16 87

    [24]

    Alivov Y I, Van Nostrand J E, Look D C, Chukichev M V, Ataev B M 2003 Applied Physics Letters 83 2943

    [25]
    [26]

    Tsukazaki A, Kubota M, Ohtomo A, Onuma T, Ohtani K, Ohno H, Chichibu S F, Kawasaki M 2005 Japanese Journal of Applied Physics Part 2-Letters Express Letters 44 L643

    [27]
    [28]

    Knenkamp R, Word R C, Schlegel C 2004 Applied Physics Letters 85 6004

    [29]
    [30]

    Lim J H, Kang C K, Kim K K, Park I K, Hwang D K, Park S J 2006 Advanced Materials 18 2720

    [31]
    [32]
    [33]

    Knenkamp R, Word R C, Godinez M 2005 Nano Letters 5 2005

    [34]
    [35]

    Guo X L, Choi J H, Tabata H, Kawai T 2001 Japanese Journal of Applied Physics Part 2-Letters 40 L177

    [36]

    Ryu Y R, Lee T S, Lubguban J A, White H W, Kim B J, Park Y S, Youn C J 2006 Applied Physics Letters 88 241108

    [37]
    [38]
    [39]

    Xu W Z, Ye Z Z, Zeng Y J, Zhu L P, Zhao B H, Jiang L, Lu J G, He H P, Zhang S B 2006 Applied Physics Letters 88 173506

    [40]

    Hwang D K, Kang S H, Lim J H, Yang E J, Oh J Y, Yang J H, Park S J 2005 Applied Physics Letters 86 222101

    [41]
    [42]

    Ohta H, Orita M, Hirano M, Hosono H 2001 Journal of Applied Physics 89 5720

    [43]
    [44]
    [45]

    Jiao S J, Zhang Z Z, Lu Y M, Shen D Z, Yao B, Zhang J Y, Li B H, Zhao D X, Fan X W, Tang Z K 2006 Applied Physics Letters 88 031911

    [46]

    Liu W, Gu S L, Ye J D, Zhu S M, Liu S M, Zhou X, Zhang R, Shi Y, Zheng Y D, Hang Y, Zhang C L 2006 Applied Physics Letters 88 092101

    [47]
    [48]
    [49]

    Kim H, Horwitz J S, Kim W H, Mkinen A J, Kafafi Z H, Chrisey D B 2002 Thin Solid Films 420 539

    [50]
    [51]

    Ma X Y, Chen P L, Li D S, Zhang Y Y, Yang D R 2007 Applied Physics Letters 91 251109

    [52]
    [53]

    Huang C H, McCaughan L 1996 Ieee Journal of Selected Topics in Quantum Electronics 2 367

    [54]

    Chia CH, Makino T, Tamura K, Segawa Y, Kawasaki M, Ohtomo A, Koinuma H. 2003 Applied Physics Letters 82 1848

    [55]
    [56]

    Huang CH, McCaughan L 1997 Electronics Letters 33 1639

    [57]
    [58]

    Liang S, Sheng H, Liu Y, Huo Z, Lu Y, Shen H 2001 Journal of Crystal Growth 225 110

    [59]
    [60]
    [61]

    Soci C, Zhang A, Xiang B, Dayeh S A, Aplin D P R, Park J, Bao X Y, Lo Y H, Wang D 2007 Nano Letters 7 1003

    [62]
    [63]

    Liu Y, Gorla C R, Liang S, Emanetoglu N, Lu Y, Shen H, Wraback M 2009 Journal of Electronic Materials 29 69

    [64]
    [65]

    Yang W, Hullavarad S S, Nagaraj B, Takeuchi I, Sharma R P, Venkatesan T, Vispute R D, Shen H 2003 Applied Physics Letters 82 3424

    [66]

    Lee C J, Lee T J, Lyu S C, Zhang Y, Ruh H, Lee H J 2002 Applied Physics Letters 81 3648

    [67]
    [68]
    [69]

    Li S Y, Lin P, Lee C Y, Tseng T Y 2004 Journal of Applied Physics 95 3711

    [70]

    Wan Q, Li Q H, Chen Y J, Wang T H, He X L, Li J P, Lin C L 2004 Applied Physics Letters 84 3654

    [71]
    [72]
    [73]

    Xu J Q, Pan Q Y, Shun Y A, Tian Z Z 2000 Sensors and Actuators B-Chemical 66 277

    [74]

    Ramanathan K, Contreras M A, Perkins C L, Asher S, Hasoon F S, Keane J, Young D, Romero M, Metzger W, Noufi R, Ward J, Duda A 2003 Progress in Photovoltaics 11 225

    [75]
    [76]

    Rensmo H, Keis K, Lindstrm H, Sdergren S, Solbrand A, Hagfeldt A, Lindquist S E, Wang L N, Muhammed M 1997 Journal of Physical Chemistry B 101 2598

    [77]
    [78]

    Pan Z W, Dai Z R, Wang Z L 2001 Science 291 1947

    [79]
    [80]

    Tian Z R R, Voigt J A, Liu J, McKenzie B, McDermott M J, Rodriguez M A, Konishi H, Xu H F 2003 Nature Materials 2 821

    [81]
    [82]
    [83]

    Kong X Y, Ding Y, Yang R, Wang Z L 2004 Science 303 1348

    [84]

    Gao P X, Ding Y, Mai W J, Hughes W L, Lao C S, Wang Z L 2005 Science 309 1700

    [85]
    [86]
    [87]

    Sun H, Zhang Q F, Wu J L 2006 Nanotechnology 17 2271

    [88]
    [89]

    Sun X W, Huang J Z, Wang J X, Xu Z 2008 Nano Letters 8 1219

    [90]

    Yang X Y, Wolcott A, Wang G M, Sobo A, Fitzmorris R C, Qian F, Zhang J Z, Li Y 2009 Nano Letters 9 2331

    [91]
    [92]
    [93]

    Wei Y G, Wu W Z, Guo R, Yuan D J, Das S M, Wang Z L 2010 Nano Letters 10 3414

    [94]
    [95]

    Mora-Ser I, Fabregat-Santiago F, Denier B, Bisquert J, Tena-Zaera R, Elias J, Lvy-Clment C 2006 Applied Physics Letters 89 203117

    [96]
    [97]

    Elias J, Tena-Zaera R, Lvy-Clment C 2008 Journal of Physical Chemistry C 112 5736

    [98]

    Ramirez D, Pauporte T, Gomez H, Lincot D 2008 Physica Status Solidi a-Applications and Materials Science 205 2371

    [99]
    [100]

    Huang M H, Mao S, Feick H, Yan H Q, Wu Y Y, Kind H, Weber E, Russo R, Yang P D 2001 Science 292 189

    [101]
    [102]
    [103]

    Gao P X, Ding Y, Wang I L 2003 Nano Letters 3 1315

    [104]
    [105]

    Tang Y, Zhao D X, Chen J, Wanderka N, Shen D Z, Fang F, Guo Z, Zhang J Y, Wang X H 2010 Materials Chemistry and Physics 121 541

    [106]

    Wang Z Q, Liu X D, Gong J F, Huang H B, Gu S L, Yang S G 2008 Crystal Growth Design 8 3911

    [107]
    [108]

    Wu G S, Xie T, Yuan X Y, Li Y, Yang L, Xiao Y H, Zhang L D 2005 Solid State Communications 134 485

    [109]
    [110]
    [111]

    Chen Y W, Liu Y C, Lu S X, Xu C S, Shao C L, Wang C, Zhang J Y, Lu Y M, Shen D Z, Fan X W 2005 Journal of Chemical Physics 123 134701

    [112]
    [113]

    Jeong M C, Oh B Y, Ham M H, Myoung J M 2006 Applied Physics Letters 88 202105

    [114]

    Chang C Y, Tsao F C, Pan C J, Chi G C, Wang H T, Chen J J, Ren F, Norton D P, Pearton S J, Chen K H, Chen L C 2006 Applied Physics Letters 88 173503

    [115]
    [116]
    [117]

    Fang X, Li J H, Zhao D X, Shen D Z, Li B H, Wang X H 2009 Journal of Physical Chemistry C 113 21208

    [118]

    Guo Z, Zhang H, Zhao D X, Liu Y C, Yao B, Li B H, Zhang Z Z, Shen D Z 2010 Applied Physics Letters 97 173508

    [119]
    [120]
    [121]

    Liu C H, Zapien J A, Yao Y, Meng X M, Lee C S, Fan S S, Lifshitz Y, Lee S T 2003 Advanced Materials 15 838

    [122]
    [123]

    Zimmler M A, Bao J, Capasso F, Mller S, Ronning C 2008 Applied Physics Letters 93 051101

    [124]
    [125]

    Wang Z L, Song J H 2006 Science 312 242

    [126]
    [127]

    Wang X D, Song J H, Liu J, Wang Z L 2007 Science 316 102

    [128]

    Ghosh R, Basak D 2007 Applied Physics Letters 90 243106

    [129]
    [130]
    [131]

    Wang J X, Sun X W, Yang Y, Huang H, Lee Y C, Tan O K, Vayssieres L 2006 Nanotechnology 17 4995

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出版历程
  • 收稿日期:  2011-01-09
  • 修回日期:  2011-02-14
  • 刊出日期:  2011-05-05

一维氧化锌纳米结构生长及器件制备研究进展

  • 1. 长春理工大学材料科学与工程学院,长春 130022;
  • 2. 内蒙古民族大学物理学院,通辽 028000;
  • 3. 中国科学院长春光学精密机械与物理研究所激发态物理重点实验室,长春 130033
    基金项目: 内蒙古自然科学基金(批准号:2010MS0105)资助的课题.

摘要: 介绍了一维氧化锌(ZnO)纳米结构的形态(纳米线和纳米带等)及其特点,阐述了该结构生长及器件制备的方法,例如水热法和化学气相沉积法等. 概述了该结构在发光二极管和纳米发电机等方面的应用进展. 最后,对一维ZnO纳米结构的未来发展趋势进行了展望,并在新方法和新工艺等方面提出了一些建议.

English Abstract

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