全部 标题 作者
关键词 摘要

OALib Journal期刊
ISSN: 2333-9721
费用:99美元

查看量下载量

相关文章

更多...
化学进展  2012 

石墨烯透明导电薄膜

, PP. 501-511

Keywords: 石墨烯,透明导电薄膜,前驱体,制备方法

Full-Text   Cite this paper   Add to My Lib

Abstract:

石墨烯是一种新型二维晶体材料,它独特的单原子层结构显示出许多优异的物理化学性质。以石墨烯为原料制备的透明导电薄膜继承了石墨烯的优点,与氧化铟锡(ITO)薄膜相比,具有更好的力学强度、透光性以及化学稳定性,已逐渐成为全世界范围内的研究热点。本文首先介绍了石墨烯的光电性能,然后分别从石墨烯透明导电薄膜的前驱体和制备方法两个不同的角度,归纳总结了最近几年石墨烯透明导电薄膜的研究进展,就目前所面临的问题进行了讨论,并展望了石墨烯透明导电薄膜的未来发展。

References

[1]  Kumar A, Zhou C W. ACS Nano, 2010, 4(1): 11-14
[2]  Hu L B, Hecht D S, Gruner G. Chemical Reviews, 2010, 110(10): 5790-5844
[3]  Geim A K, Novoselov K S. Nature Materials, 2007, 6(3): 183-191
[4]  Pisana S, Lazzeri M, Casiraghi C, Novoselov K S, Geim A K, Ferrari A C, Mauri F. Nature Materials, 2007, 6(3): 198-201
[5]  Nair R R, Blake P, Grigorenko A N, Novoselov K S, Booth T J, Stauber T, Peres N M R, Geim A K. Science, 2008, 320(5881): 1308-1308
[6]  Casiraghi C, Hartschuh A, Lidorikis E, Qian H, Harutyunyan H, Gokus T, Novoselov K S, Ferrari A C. Nano Letters, 2007, 7(9): 2711-2717
[7]  Szabo T, Berkesi O, Forgo P, Josepovits K, Sanakis Y, Petridis D, De'ka'ny I. Chemistry of Materials, 2006, 18(11): 2740-2749
[8]  Robinson J T, Zalalutdinov M, Baldwin J W, Snow E S, Wei Z Q, Sheehan P, Houston B H. Nano Letters, 2008, 8(10): 3441-3445
[9]  Jeong S Y, Kim S H, Han J T, Jeong H J, Yang S, Lee G W. ACS Nano, 2011, 5(2): 870-878
[10]  Allen M J, Tung V C, Gomez L, Xu Z, Chen L M, Nelson K S, Zhou C W, Kaner R B, Yang Y. Advanced Materials, 2009, 21(20): 2098-2102
[11]  Yu A P, Roes I, Davies A, Chen Z W. Applied Physics Letters, 2010, 96(25): art. no. 253105
[12]  Li D, Mueller M B, Gilje S, Kaner R B, Wallace G G. Nature Nanotechnology, 2008, 3(2): 101-105
[13]  Yang F, Liu Y Q, Gao L, Sun J. Journal of Physical Chemistry C, 2010, 114(50): 22085-22091
[14]  Stankovich S, Dikin D A, Piner R D, Kohlhaas K A, Kleinhammes A, Jia Y, Wu Y, Nguyen S T, Ruoff R S. Carbon, 2007, 45(7): 1558-1565
[15]  Hernandez Y, Nicolosi V, Lotya M, Blighe F M, Sun Z Y, De S, McGovern I T, Holland B, Byrne M, Gun'ko Y K, Boland J J, Niraj P, Duesberg G, Krishnamurthy S, Goodhue R, Hutchison J, Scardaci V, Ferrari A C, Coleman J N. Nature Nanotechnology, 2008, 3(9): 563-568
[16]  Che J F, Shen L, Xiao Y H. Journal of Materials Chemistry, 2010, 20: 1722-1727
[17]  Hong W J, Xu Y X, Lu G W, Li C, Shi G Q. Electrochemistry Communications, 2008, 10(10): 1555-1558
[18]  Eda G, Unalan H E, Rupesinghe N, Amaratunga G A J, Chhowalla M. Applied Physics Letters, 2008, 93(23): art. no. 233502
[19]  Eda G, Chhowalla M. Nano Letters, 2009, 9(2): 814-818
[20]  Jo K, Lee T, Choi H J, Park J H, Lee D J, Lee D W, Kim B S. Langmuir, 2011, 27(5): 2014-2018
[21]  Choi K S, Liu F, Choi J S, Seo T S. Langmuir, 2010, 26(15), 12902-12908
[22]  Tung V C, Chen L M, Allen M J, Wassei J K, Nelson K, Kaner R B, Yang Y. Nano Letters, 2009, 9(5): 1949-1955
[23]  King P J, Khan U, Lotya M, De S, Coleman J N. ACS Nano, 2010, 4(7): 4238-4246
[24]  Hong T K, Lee D W, Choi H J, Shin H S, Kim B S. ACS Nano, 2010, 4(7): 3861-3868
[25]  Tien H W, Huang Y L, Yang S Y, Wang J Y, Ma C C M. Carbon, 2011, 49(5): 1550-1560
[26]  Li C Y, Li Z, Zhu H W, Wang K L, Wei J Q, Li X A, Sun P Z, Zhang H, Wu D H. Journal of Physical Chemistry C, 2010, 114(33): 14008-14012
[27]  Orofeo C, Ago H, Hu B S, Tsuji M. Nano Research, 2011, 4(6): 531-540
[28]  Vaari J, Lahtinen J, Hautojurvi P. Catalysis Letters, 1997, 44(1): 43-49
[29]  Kasry A, Kuroda M A, Martyna G J, Tulevski G S, Bol A A. ACS Nano, 2010, 4(7): 3839-3844
[30]  Srivastava A, Galande C, Ci L, Song L, Rai C, Jariwala D, Kelly K F, Ajayan P M. Chemistry of Materials, 2010, 22(11): 3457-3461
[31]  Lee B J, Yu H Y, Jeong G H. Nanoscale Research Letters, 2010, 5(11): 1768-1773
[32]  Jo G, Choe M, Cho C Y, Kim J H, Park W, Lee S, Hong W K, Kim T W, Park S J, Hong B H, Kahng Y H, Lee T. Nanotechnology, 2010, 21(17): art. no. 175201
[33]  De Arco L G, Zhang Y, Schlenker C W, Ryu K, Thompson M E, Zhou C W. ACS Nano, 2010, 4(5): 2865-2873
[34]  Kalita G, Masahiro M, Uchida H, Wakita K, Umeno M. Materials Letters, 2010, 64(20): 2180-2183
[35]  Coraux J, Ndiaye A T, Busse C, Michely T. Nano Letters, 2008, 8(2): 565-570
[36]  Li X S, Cai W W, An J H, Kim S, Nah J, Yang D X, Piner R, Velamakanni A, Jung I, Tutuc E, Banerjee S K, Colombo L, Ruoff R S. Science, 2009, 324(5932): 1312-1314
[37]  Wu Z S, Pei S F, Ren W C, Tang D M, Gao L B, Liu B L, Li F, Liu C, Cheng H M. Advanced Materials, 2009, 21(17): 1756-1760
[38]  Zhu Y W, Cai W W, Piner R D, Velamakanni A, Ruoff R S. Applied Physics Letters, 2009, 95(10): art. no. 103104
[39]  Biswas S, Drzal L T. Nano Letters, 2009, 9(1): 167-172
[40]  Pan S, Aksay I A. ACS Nano, 2011, 5(5): 4073-4083
[41]  Novoselov K S, Geim A K, Morozov S V, Jiang D, Zhang Y, Dubonos S V, Grigorieva I V, Firsov A A. Science, 2004, 306(5696): 666-669
[42]  Lee C, Wei X D, Kysar J W, Hone J. Science, 2008, 321(5887): 385-388
[43]  Kane C L. Nature, 2005, 438(7065): 168-170
[44]  Novoselov K S, Jiang Z, Zhang Y, Morozov S V, Stormer H L, Zeitler U, Maan J C, Boebinger G S, Kim P, Geim A K. Science, 2007, 315(5817): 1379-1379
[45]  Bonaccorso F, Sun Z, Hasan T, Ferrari A C. Nature Photonics, 2010, 4(9): 611-622
[46]  Ohta T, Bostwick A, Seyller T, Horn K, Rotenberg E. Science, 2006, 313 (5789): 951-954
[47]  Buchsteiner A, Lerf A, Pieper J. Journal of Physical Chemistry B, 2006, 110(45): 22328-22338
[48]  Stankovich S, Piner R D, Chen X Q, Wu N Q, Nguyen S T, Ruoff R S J. Chemistry of Materials, 2006, 16(2): 55-158
[49]  Eda G, Fanchini G, Chhowalla M. Nature Nanotechnology, 2008, 3(5): 270-274
[50]  Pei S F, Zhao J P, Du J H, Ren W C, Cheng H M. Carbon, 2010, 48(15): 4466-4474
[51]  Zhao J P, Pei S F, Ren W C, Gao L B, Cheng H M. ACS Nano, 2010, 4(9): 5245-5252
[52]  Becerril H A, Mao J, Liu Z, Stoltenberg R M, Bao Z, Chen Y. ACS Nano, 2008, 2(3): 463-470
[53]  Yin Z Y, Sun S Y, Salim T, Wu S X, Huang X A, He Q Y, Lam Y M, Zhang H. ACS Nano, 2010, 4(9): 5263-5268
[54]  Pham V H, Cuong T V, Hur S H, Shin E W, Kim J S, Chung J S, Kim E J. Carbon, 2010, 48(7): 1945-1951
[55]  Gilje S, Han S, Wang M, Wang K L, Kaner R B. Nano Letters, 2007, 7(11): 3394-3398
[56]  Vollmer A, Feng X L, Wang X, Zhi L J, Müllen K. Applied Physics A, 2009, 94: 1-4
[57]  Su C Y, Xu Y P, Zhang W J, Zhao J W, Tang X H, Tsai C H, Li L J. Chemistry of Materials, 2009, 21(23): 5674-5680
[58]  Wang S J, Geng Y, Zheng Q B, Kim J K. Carbon, 2010, 48(6): 1815-1823
[59]  Park S, An J H, Jung I W, Piner R D, An S J, Li X S, Velamakanni A, Ruoff R S. Nano Letters, 2009, 9(4): 1593-1597
[60]  Geng J X, Liu L J, Yang S B, Youn S C, Kim D W, Lee J S, Choi J K, Jung H T. Journal of Physical Chemistry C, 2010, 114(34): 14433-14440
[61]  Liu Y Q, Gao L, Sun J, Wang Y, Zhang J. Nanotechnology, 2009, 20(46): art. no. 465605
[62]  Gomez-Navarro C, Weitz R T, Bittner A M, Scolari M, Mews A, Burghard M, Kern K. Nano Letters, 2009, 9(5): 3499-3503
[63]  Yang D, Velamakanni A, Bozoklu G, Park S, Stoller M, Piner R D, Stankovich S, Jung I, Field D A, Ventrice C A, Ruoff R S. Carbon, 2009, 47(1): 145-152
[64]  Kudin K N, Ozbas B, Schniepp H C, Prud'homme R K, Aksay I A, Car R. Nano Letters, 2008, 8(1): 36-41
[65]  Blake P, Brimicombe P D, Nair R R, Booth T J, Jiang D, Schedin F, Ponomarenko L A, Morozov S V, Gleeson H F, Hill E W, Geim A K, Novoselov K S. Nano Letters, 2008, 8(6): 1704-1708
[66]  Khan U, O'Neill A, Lotya M, De S, Coleman J N. Small, 2010, 6(7): 864-871
[67]  Green A A, Hersam M C. Nano Letters, 2009, 9(12): 4031-4036
[68]  Lotya M, Hernandez Y, King P J, Smith R J, Nicolosi V, Karlsson L S, Blighe F M, De S, Wang Z M, McGovern I T, Duesberg G S, Coleman J N. Journal of the American Chemical Society, 2009, 131(10): 3611-3620
[69]  Hamilton C E, Lomeda J R, Sun Z Z, Tour J M, Barron A R. Nano Letters, 2009, 9(10): 3460-3462
[70]  Su C Y, Lu A Y, Xu Y P, Chen F R, Khlobystov A N, Li L J. ACS Nano, 2011, 5(3): 2332-2339
[71]  Wassei J K, Kaner R B. Materials, 2010, 13(3): 52-59
[72]  Xu Y F, Wang Y, Liang J J, Huang Y, Ma Y F, Wan X J, Chen Y S. Nano Research, 2009, 2(4): 343-348
[73]  Shen J F, Hu Y Z, Li C, Qin C, Shi M, Ye M X. Langmuir, 2009, 25(11): 6122-6128
[74]  Wang D W, Li F, Zhao J P, Ren W C, Chen Z G, Tan J, Wu Z S, Gentle I, Lu G Q, Cheng H M. ACS Nano, 2009, 3(7): 1745-1752
[75]  Bon S B, Valentini L, Kenny J M, Peponi L, Verdejo R, Lopez-Manchado M A. Physica Status Solidi A-Applications and Materials Science, 2010, 207(11): 2461-2466
[76]  De S, King P J, Lotya M, O'Neill A, Doherty E M, Hernandez Y, Duesberg G S, Coleman J N. Small, 2010, 6(3): 458-464
[77]  Verma V P, Das S, Lahiri I, Choi W. Applied Physics Letters, 2010, 96(20): art. no. 203108
[78]  Starr D E, Pazhetnov E, Stadnichenko A, Boronin A, Shaikhutdinov S. Surface Science, 2006, 600(13): 2688-2695
[79]  Li X S, Zhu Y W, Cai W W, Borysiak M, Han B Y, Chen D, Piner R D, Colombo L, Ruoff R S. Nano Letters, 2009, 9(12): 4359-4363
[80]  Grüneis1 A, Kummer K, Vyalikh D V. New Journal of Physics, 2009, 11: art. no. 073050
[81]  Liu W, Jackson B L, Zhu J, Miao C Q, Heui C, Chung, Park Y J, Sun K, Woo J, Xie Y H. ACS Nano, 2010, 4(7): 3927-3932
[82]  Li X, Cai W, Colombo L, Ruoff R S. Nano Letters, 2009, 9(12): 4268-4272
[83]  Lv X, Huang Y, Liu Z B, Tian J G, Wang Y, Ma Y F, Liang J J, Fu S P, Wan X J, Chen Y S. Small, 2009, 5(14): 1682-1687
[84]  De S, Coleman J N. ACS Nano, 2010, 4(5): 2710-2713
[85]  Zhou X, Liu Z. Chemical Communications, 2010, 2611-2613
[86]  Ma W, Song L, Yang R, Zhang T, Zhao Y, Sun L, Ren Y, Liu D, Liu L, Shen J, Zhang Z, Xiang Y, Zhou W, Xie S. Nano Letters, 2007, 7(8): 2307-2311
[87]  Zhang M, Fang S L, Zakhidov A A, Lee S B, Aliev A E, Williams C D, Atkinson K R, Baughman R H. Science, 2005, 309(5738): 1215-1219
[88]  Su C Y, Xu Y, Zhang W, Zhao J, Liu A, Tang X, Tsai C H, Huang Y, Li L J. ACS Nano, 2010, 4(9): 5285-5292

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133