OALib Journal期刊
高性能石墨烯/聚合物纳米复合材料的研究进展——界面作用力的设计及其影响
DOI: 10.3724/SP.J.1105.2014.14035
Keywords: 石墨烯 ,聚合物基体 ,纳米复合材料 ,界面作用力
Abstract:
石墨烯是一种二维材料,具有极其优异的电学、力学、热学等性能,制备方法简单且价格低廉,可以在高性能聚合物基复合材料中展现无穷魅力.石墨烯在聚合物中的分散状态,以及与基体间的界面作用是构筑高性能石墨烯/聚合物纳米复合材料的关键因素.本文综述了石墨烯/聚合物纳米复合材料的界面作用力,包括氢键、π-π堆栈、共价、配位作用和成核—结晶作用,并总结和评述了这些界面作用力的优缺点和适用范围.最后展望了多种协同作用在构筑强界面作用力的石墨烯/聚合物基纳米复合材料中的应用前景.
References
[1] 32 Ma J,Meng Q,Michelmore A,Kawashima N,Izzuddin Z,Bengtsson C,Kuan H C.J Mater Chem A,2013,1(13):4255~4264 [2] 33 Wan Y J,Tang L C,Gong L X,Yan D,Li Y B,Wu L B,Jiang J X,Lai G Q.Carbon,2014,69:467~480 [3] 34 Si J,Li J,Wang S,Li Y,Jing X.Composites Part A,2013,54:166~172 [4] 35 Liu Y Z,Li Y F,Yang Y G,Wen Y F,Wang M Z.Carbon,2013,52:624 [5] 36 Yuan F Y,Zhang H B,Li X,Ma H L,Li X Z,Yu Z Z.Carbon.2014,68:653~661 [6] 37 Wu C,Huang X Y,Wang G L,Wu X F,Yang K,Li S T,Jiang P K.J Mater Chem,2012,22(14):7010~7019 [7] 38 Bian J,Lin H L,He F X,Wei X W,Chang I,Sancaktar E.Composites Part A,2013,47(0):72~82 [8] 51 Zhou T,Chen D,Jiu J,Nge T T,Sugahara T,Nagao S,Koga H,Nogi M,Suganuma K,Wang X.Express Polym Lett,2013,7(9):756~766 [9] 52 Premkumar T,Geckeler K E.Prog Polym Sci,2012,37(4):515~529 [10] 53 Liang J,Huang Y,Zhang L,Wang Y,Ma Y,Guo T,Chen Y.Adv Funct Mater,2009,19(14):2297~2302 [11] 55 Das B,Prasad K E,Ramamurty U,Rao C N R.Nanotechnology,2009,20(12):125705 [12] 61 Hazarika M,Jana T.Compos Sci Technol,2013,87:94~102 [13] 62 Jia H,Su X,Hou G,Ma F,Bi S,Liu Z.Integrated Ferroelectrics,2013,145(1):130~139 [14] 63 Lim Y S,Tan Y P,Lim H N,Huang N M,Tan W T.J Polym Res,2013,20(6):1~10 [15] 64 Ouyang W,Sun J,Memon J,Wang C,Geng J,Huang Y.Carbon,2013,62(0):501~509 [16] 65 Gopiraman M,Fujimori K,Zeeshan K,Kim B S,Kim I S.Express Polym Lett,2013,7(6):554~563 [17] 74 Qi X,Pu K,Li H,Zhou X,Wu S,Fan Q L,Liu B,Boey F,Huang W,Zhang H.Angew Chem Int Ed,2010,49(49):9426~9429 [18] 75 Liu J,Tao L,Yang W,Li D,Boyer C,Wuhrer R,Braet F,Davis T P.Langmuir,2010,26(12):10068~10075 [19] 76 Liu J,Yang W,Tao L,Li D,Boyer C,Davis T P.J Polym Sci Part A Polym Chem,2010,48(2):425~433 [20] 77 Ren C,Chen Y,Zhang H,Deng J.Macromol Rapid Commun,2013,34(17):1368~1374 [21] 78 Liu Y T,Xie X M,Ye X Y.Carbon,2011,49(11):3529~3537 [22] 79 Tong X Z,Song F,Li M Q,Wang X L,Chin I J,Wang Y Z.Compos Sci Technol,2013,88:33~38 [23] 80 Cheng H K F,Sahoo N G,Tan Y P,Pan Y,Bao H,Li L,Chan S H,Zhao J.ACS Appl Mater Interfaces,2012,4(5):2387~2394 [24] 81 Pan Y,Bao H,Sahoo N G,Wu T,Li L.Adv Funct Mater,2011,21(14):2754~2763 [25] 82 Zhu S,Li J,Chen Y,Chen Z,Chen C,Li Y,Cui Z,Zhang D.J Nanopart Res,2012,14(9):1132~1142 [26] 83 Liu J,Song G,He C,Wang H.Macromol Rapid Commun,2013,34(12):1002~1007 [27] 84 Yadav S K,Yoo H J,Cho J W.J Polym Sci Part B Polym Phys,2013,51(1):39~47 [28] 85 Kumar M,Chung J S,Kong B S,Kim E J,Hur S H.Mater Lett,2013,106(0):319~321 [29] 86 Han S,Chun B C.Composites Part A,2014,58(0):65~72 [30] 90 Salavagione H J,Gómez M A,Martínez G.Macromolecules,2009,42(17):6331~6334 [31] 91 Park S,Lee K S,Bozoklu G,Cai W,Nguyen S T,Ruoff R S.ACS Nano,2008,2(3):572~578 [32] 92 Wu L,Liu L,Gao B,Mu?oz-Carpena R,Zhang M,Chen H,Zhou Z,Wang H.Langmuir,2013,29(49):15174~15181 [33] 93 Feng Qingping(冯青平).Study on functionalization of multi-walled carbon nanotube and their alignment on substrates(多壁碳纳米管的修饰及在基板上的排列研究).Doctoral Dissertation of Tsinghua University(清华大学博士学位论文),2007 [34] 94 Lin C,Liu Y T,Xie X M.Aust J Chem,2014,67(1):121~126 [35] 95 Liu Y T,Zhu X M,Duan Z Q,Xie X M.Chem Commun,2013,49(87):10305~10307 [36] 96 Liu Y T,Feng Q P,Xie X M,Ye X Y.Carbon,2011,49(10):3371~3375 [37] 97 Liu Y T,Dang M,Xie X M,Wang Z F,Ye X Y.J Mater Chem,2011,21(46):18723~18729 [38] 105 Xu J Z,Chen T,Yang C L,Li Z M,Mao Y M,Zeng B Q,Hsiao B S.Macromolecules,2010,43(11):5000~5008 [39] 106 Xu J Z,Chen C,Wang Y,Tang H,Li Z M,Hsiao B S.Macromolecules,2011,44(8):2808~2818 [40] 107 Zheng X,Xu Q,He L,Yu N,Wang S,Chen Z,Fu J.J Phys Chem B.2011,115(19):5815~5826 [41] 108 Cheng S,Chen X,Hsuan Y G,Li C Y.Macromolecules,2012,45(2):993~1000 [42] 1 Kroto H W, Heath J R,O’Brien S C,Curl R F,Smalley R E.Nature,1985,318(6042):162~163 [43] 2 Iijima S.Nature,1991,354(6348):56~58 [44] 3 Novoselov K S,Geim A K,Morozov S V,Jiang D,Dubonos S V,Grigorieva I V,Firsov A A.Science,2004,306 (5696):666~669 [45] 4 Ohta T,Bostwick A,Seyller T,Horn K,Rotenberg E.Science,2006,313(5789):951~954 [46] 5 Girit ? ?,Meyer J C,Erni R,Rossell M D,Kisielowski C,Yang L,Park C,Crommie M F,Cohen M L,Louie S G,Zettl A.Science,2009,323(5922):1705~1708 [47] 6 Geim A K,Novoselov K S.Nat Mater,2007,6(3):183~191 [48] 7 Lee C,Wei X,Kysar J W,Hone J.Science,2008,321(5887):385~388 [49] 8 Balandin A A,Ghosh S,Bao W,Calizo I,Teweldebrhan D,Miao F,Lau C N.Nano Lett,2008,8(3):902~907 [50] 9 Du X,Skachko I,Barker A,Andrei E Y.Nat Nanotecnol,2008,3(8):491~495 [51] 10 Castro Neto A H,Guinea F,Peres N M R,Novoselov K S,Geim A K.Rev Mod Phys,2009,81(1):109~162 [52] 11 Bunch J S,Verbridge S S,Alden J S,van der Zande A M,Parpia J M,Craighead H G,Mceuen P L.Nano Lett,2008,8(8):2458~2462 [53] 12 Geim A K.Science,2009,324(5934):1530~1534 [54] 13 Du J,Cheng H M.Macromol Chem Phys,2012,213(10-11):1060~1077 [55] 14 Kim H,Abdala A A,Macosko C W.Macromolecules,2010,43(16):6515~6530 [56] 15 Kuilla T,Bhadra S,Yao D,Kim N H,Bose S,Lee J H.Prog Polym Sci,2010,35(11):1350~1375 [57] 16 Stankovich S,Dikin D A,Dommett G H B,Kohlhaas K M,Zimney E J,Stach E A,Piner R D,Nguyen S T,Ruoff R S.Nature,2006,442(7100):282~286 [58] 17 Kojima Y,Usuki A,Kawasumi M,Okada A,Kurauchi T,Kamigaito O.J Polym Sci Part A Polym Chem,1993,31(7):1755~1758 [59] 18 Okada A,Kawasumi M,Usuki A,Kojima Y,Kurauchi T,Kamigaito O.Mater Res Soc Symp Proc,1989,171:45~50 [60] 19 Kojima Y,Usuki A,Kawasumi M,Okada A,Fukushima Y,Kurauchi T,Kamigaito O.J Mater Res,1993,8(5):1185~1189 [61] 20 Ray S S,Okamoto M.Prog Polym Sci,2003,28(11):1539~1641 [62] 21 Spitalsky Z,Tasis D,Papagelis K,Galiotis C.Prog Polym Sci,2010,35(3):357~401 22 Hernandez Y,Nicolosi V,Lotya M,Blighe F M,Sun Z,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.Nat Nanotechnol,2008,3(9):563~568 [63] 23 Khan U,O’Neill A,Lotya M,De S,Coleman J N.Small,2010,6(7):864~871 [64] 24 Hummers W S,Offeman R E.J Am Chem Soc,1958,80(6):1339 [65] 25 Lerf A,He H,Forster M,Klinowski J.J Phys Chem B,1998,102(23):4477~4482 [66] 26 Chen C,Chen T,Wang H,Sun G,Yang X.Nanotechnology,2011,22(40):405602 [67] 27 Li D,Müeller M B,Gilje S,Kaner R B,Wallace G G.Nat Nanotechnol,2008,3(2):101~105 [68] 28 Jung I,Vaupel M,Pelton M,Piner R,Dikin D A,Stankovich S,An J,Ruoff R S.J Phys Chem C,2008,112(23):8499~8506 [69] 29 Li W,Tang X Z,Zhang H B,Jiang Z G,Yu Z Z,Du X S,Mai Y W.Carbon,2011,49(14):4724~4730 [70] 30 Gudarzi M M,Sharif F.Express Polym Lett,2012,6(12):1017~1031 [71] 31 Yousefi N,Lin X,Zheng Q,Shen X,Pothnis J R,Jia J,Zussman E,Kim J K.Carbon,2013,59:406~417 [72] 39 Xiang C,Cox P J,Kukovecz A,Genorio B,Hashim D P,Yan Z,Peng Z,Hwang C,Ruan G,Samuel E L G,Sudeep P M,Konya Z,Vajtai R,Ajayan P M,Tour J M.ACS Nano,2013,7(11):10380~10386 [73] 40 Liao K H,Park Y T,Abdala A,Macosko C.Polymer,2013,54(17):4555~4559 [74] 41 Yang Y K,He C E,Peng R G,Baji A,Du X S,Huang Y L,Xie X L,Mai Y W.J Mater Chem,2012,22(12):5666~5675 [75] 42 Ju S P,Wang Y C,Huang G J,Chang J W.RSC Adv,2013,3(22):8298~8307 [76] 43 Choi B,Lee J,Lee S,Ko J H,Lee K S,Oh J,Han J,Kim Y H,Choi I S,Park S.Macromol Rapid Commun,2013,34(6):533~538 [77] 44 Zhang H B,Zheng W G,Yan Q,Yang Y,Wang J W,Lu Z H,Ji G Y,Yu Z Z.Polymer,2010,51(5):1191~1196 [78] 45 Maiti S,Shrivastava N K,Suin S,Khatua B B.ACS Appl Mater Interfaces,2013,5(11):4712~4724 [79] 46 Fang Z,Ito A,Stuart A C,Luo H,Chen Z,Vinodgopal K,You W,Meyer T J,Taylor D K.ACS Nano,2013,7(9):7992~8002 [80] 47 Yu Y H,Lin Y Y,Lin C H,Chan C C,Huang Y C.Polym Chem,2014,5(2):535~550 [81] 48 Pant H R,Park C H,Tijing L D,Amarjargal A,Lee D H,Kim C S.Colloids Surf A Physicochem Eng Asp,2012,407:121~125 [82] 49 Pant H R,Pant B,Park C H,Kim H J,Lee D S,Tijing L D,Hwang B S,Kim H Y,Kim C S.Fiber Polym,2013,14(6):970~975 [83] 50 Yuan D,Wang B,Wang L,Wang Y,Zhou Z.Composites Part B,2013,55:215~220 [84] 54 Liu L Q,Gao Y,Liu Q,Kuang J,Zhou D,Ju S T,Han B H,Zhang Z.Small,2013,9(14):2466~2472 [85] 56 Xu Y,Hong W,Bai H,Li C,Shi G.Carbon,2009,47(15):3538~3543 [86] 57 Zhao X,Zhang Q,Chen D,Lu P.Macromolecules,2010,43(5):2357~2363 [87] 58 Jiang L,Shen X P,Wu J L,Shen K C.J Appl Polym Sci,2010,118(1):275~279 [88] 59 Yang X M,Li L A,Shang S M,Tao X M.Polymer,2010,51(15):3431~3435 [89] 60 Bao C L,Guo Y Q,Song L,Hu Y.J Mater Chem,2011,21(36):13942~13950 [90] 66 Compton O C,Cranford S W,Putz K W,An Z,Brinson L C,Buehler M J,Nguyen S T.ACS Nano,2012,6(3):2008~2019 [91] 67 Duan Z Q,Liu Y T,Xie X M,Ye X Y.Chinese Chem Lett,2013,24(1):17~19 [92] 68 Qian X,Song L,Tai Q,Hu Y,Yuen R K K.Compos Sci Technol,2013,74:228~234 [93] 69 Shen B,Zhai W,Chen C,Lu D,Wang J,Zheng W.ACS Appl Mater Interfaces,2011,3(8):3103~3109 [94] 70 Wu H,Zhao W,Hu H,Chen G.J Mater Chem,2011,21(24):8626~8632 [95] 71 Liu M,Miao Y E,Zhang C,Tjiu W W,Yang Z,Peng H,Liu T.Nanoscale,2013,5(16):7312~7320 [96] 72 Ansari M O,Khan M M,Ansari S A,Amal I,Lee J,Cho M H.Mater Lett,2014,114:159~162 [97] 73 Liu Y,Ma Y,Guang S,Xu H,Su X.J Mater Chem A,2014,2(3):813~823 [98] 87 Oh S M,Oh K M,Dao T D,Lee H I,Jeong H M,Kim B K.Polym Int,2013,62(1):54~63 [99] 88 Xiong Z Y,Gu T H,Wang X G.Langmuir,2014,30(2):522~532 [100] 89 Monicaáveca L,Lu F,Meziani M J,Cao L,Zhang P,Qi G,Qu L,Shrestha M,Sun Y P.Chem Commun,2009(18):2565~2567 [101] 98 Liu Y T,Tan Z,Xie X M,Wang Z F,Ye X Y.Chem-Asian J,2013,8(4):817~823 [102] 99 Liu Y T,Xie X M,Ye X Y.Chem Commun,2013,49(4):388~390 [103] 100 Liu Y T,Duan Z Q,Xie X M,Ye X Y.Chem Commun,2013,49(16):1642~1644 [104] 101 Chen Nan(陈楠),Xie Xuming(谢续明).Acta Polymerica Sinica(高分子学报),2013,(5):635~642 [105] 102 Cong H P,Wang P,Yu S H.Chem Mater,2013,25(16):3357~3362 [106] 103 Bai H,Li C,Wang X,Shi G.J Phys Chem C,2011,115(13):5545~5551 [107] 104 Chen N,Liu Y T,Xie X M,Ye X Y,Feng X,Chen Y F,Wang Y H.Carbon,2012,50(12):4760~4764
Full-Text
Contact Us
service@oalib.com
QQ:3279437679
WhatsApp +8615387084133
