Hybrid Nanocomposites of Palladium Nanoparticles Having POSS and MWNTs via Ionic Interactions

Jong-hwan Jeon; Jung-hyurk Lim; Kyung-min Kim

Macromolecular Research, Vol.17, No.12, 987-994, December, 2009

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Hybrid Nanocomposites of Palladium Nanoparticles Having POSS and MWNTs via Ionic Interactions

Jong-hwan Jeon, Jung-hyurk Lim, and Kyung-min Kim^†

Department of Polymer Science and Engineering, Chungju National University, Chungbuk 380-702, Korea

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Palladium nanoparticles having cubic silsesquioxanes (POSS) (Pd-POSS) were produced by the reaction of palladium (II) acetate and octa(3-aminopropyl)octasilsesquioxane octahydrochloride (POSS-NH3+) in methanol at room temperature. Functionalized multiwalled carbon nanotubes (MWNT-COOH) were prepared by acid treatment of pristine MWNTs. The hybrid nanocomposites of Pd-POSS and MWNT-COOH (Pd-MWNT nanocomposites) were synthesized by self-assembly method via ionic interaction between positively charged Pd-POSS and negatively charged MWNT-COO-. The spherical aggregates of Pd-POSS with a diameter of 40-60 nm were well attached to the surfaces of MWNT-COOH on Silicon wafer. The composition, structure, and surface morphology of Pd-MWNT nanocomposites were studied by UV-vis spectrophotometer, energy dispersive spectrum (EDX), scanning electron microscopy (SEM), and atomic force microscope (AFM).

Keywords:palladium nanoparticles;multiwalled carbon nanotube;self-assembly;hybrid nanocomposites;surface modification

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[Referenced By]

[1] Daniel MC, Astruc D, Chem. Rev., 104(1), 293 (2004)

[2] Henglein A, Chem. Rev., 89, 1861 (1989)

[3] Templeton AC, Wuelfing WP, Murray RW, Acc. Chem. Res., 33, 27 (2000)

[4] Schmid G, Corain B, Eur. J. Inorg. Chem., 3081 (2003)

[5] Shenhar R, Norsten TB, Rotello VM, Adv. Mater., 17(6), 657 (2005)

[6] Rao CNR, Kulkarni GU, Thomas PJ, Edwards PP, Chem. Soc. Rev., 29, 27 (2000)

[7] Mirkin CA, Letsinger RL, Mucic RC, Storhoff JJ, Nature, 382(6592), 607 (1996)

[8] Mann S, Shenton W, Li M, Connolly S, Fitzmaurice D, Adv. Mater., 12(2), 147 (2000)

[9] Teranishi T, Haga M, Shiozawa Y, Miyake M, J. Am. Chem. Soc., 122(17), 4237 (2000)

[10] Mandal S, Gole A, Lala N, Gonnade R, Ganvir V, Sastry M, Langmuir, 17(20), 6262 (2001)

[11] Adachi E, Langmuir, 16(16), 6460 (2000)

[12] Jin J, Iyoda T, Cao C, Song Y, Jiang L, Li T, Zhu D, Angew. Chem. Int. Ed., 40, 2135 (2001)

[13] Hussain I, Wang ZX, Cooper AI, Brust M, Langmuir, 22(7), 2938 (2006)

[14] Deheer WA, Chatelain A, Ugarte D, Science, 270(5239), 1179 (1995)

[15] Ajayan PM, Stephan O, Colliex C, Trauth D, Science, 265(5176), 1212 (1994)

[16] Chen P, Wu X, Lin J, Tan KL, Science, 285, 91 (1999)

[17] Kong J, Franklin NR, Zhou CW, Chapline MG, Peng S, Cho KJ, Dai HJ, Science, 287, 622 (2000)

[18] Park SD, Xu W, Chung C, Kwon Y, Macromol. Res., 16(2), 155 (2008)

[19] Park I, Park M, Kim J, Lee H, Lee MS, Macromol. Res., 15(6), 498 (2007)

[20] Kim BS, Suh KD, Kim B, Macromol. Res., 16(1), 76 (2008)

[21] Lee SH, Park JS, Koo CM, Lim BK, Kim SO, Macromol. Res., 16(3), 261 (2008)

[22] Kim KH, Jo WH, Macromol. Res., 16(8), 749 (2008)

[23] Lawrence NS, Deo RP, Wang J, Electroanalysis, 17, 65 (2005)

[24] Fu KF, Sun YP, J. Nanosci. Nanotechnol., 3, 351 (2003)

[25] Sun YP, Fu KF, Lin Y, Huang WJ, Acc. Chem. Res., 35, 1096 (2002)

[26] Liu J, Rinzler AG, Dai HJ, Hafner JH, Bradley RK, Boul PJ, Lu A, Iverson T, Shelimov K, Huffman CB, Rodriguez-Macias F, Shon YS, Lee TR, Colbert DT, Smalley RE, Science, 280(5367), 1253 (1998)

[27] Li WZ, Liang CH, Zhou WJ, Qiu JS, Zhou ZH, Sun GQ, Xin Q, J. Phys. Chem. B, 107(26), 6292 (2003)

[28] Kong J, Chapline MG, Dai HJ, Adv. Mater., 13(18), 1384 (2001)

[29] Bezryadin A, Lau CN, Tinkham M, Nature, 404, 971 (2000)

[30] Xue B, Chen P, Hong Q, Lin JY, Tan KL, J. Mater. Chem., 11, 2378 (2001)

[31] Li J, Moskovits M, Haslett TL, Chem. Mater., 10, 1963 (1998)

[32] Azamian BR, Coleman KS, Davis JJ, Hanson N, Green MLH, Chem. Commun., 366 (2002)

[33] Mu YY, Liang HP, Hu JS, Jiang L, Wan LJ, J. Phys. Chem. B, 109(47), 22212 (2005)

[34] Jin GP, Ding YF, Zheng PP, J. Power Sources, 166(1), 80 (2007)

[35] Yen CH, Shimizu K, Lin YY, Bailey F, Cheng IF, Wai CM, Energy Fuels, 21(4), 2268 (2007)

[36] Shi J, Wang Z, Li HL, J. Nanoparticle Res., 8, 743 (2006)

[37] Banerjee S, Kahn MGC, Wong SS, Chem. Eur. J., 9, 1898 (2003)

[38] Chattopadhyay J, Sadana AK, Liang F, Beach JM, Xiao Y, Hauge RH, Billups WE, Org. Lett., 7, 4067 (2005)

[39] Ho PF, Chi KM, Nanotechnology, 15, 1059 (2004)

[40] Hayashi Y, Tokunaga T, Toh S, Moon WJ, Kaneko K, Diamond. Relat. Mater., 14, 790 (2005)

[41] Guella G, Zanchetta C, Patton B, Miotello A, J. Phys. Chem. B, 110(34), 17024 (2006)

[42] Corma A, Garcia H, Primo A, J. Catal., 241(1), 123 (2006)

[43] Fukai Y, Sugimoto H, Adv. Phys., 34, 263 (1985)

[44] Watari N, Ohnishi S, Ishii Y, J. Phys. Condens. Matter., 12, 6799 (2000)

[45] Kishore S, Nelson JA, Adair JH, Eklund PC, J. Alloy Compd., 389, 234 (2005)

[46] Horinouchi S, Yamanoi Y, Yonezawa T, Mouri T, Nishihara H, Langmuir, 22(4), 1880 (2006)

[47] Anson A, Lafuente E, Urriolabeitia E, Navarro R, Benito AM, Maser WK, Martinez MT, J. Phys. Chem. B, 110(13), 6643 (2006)

[48] Evans J, Chem. World, 3, 16 (2006)

[49] Korotcenkov G, Brinzari V, Boris Y, Ivanova M, Schwank J, Morante J, Thin Solid Films, 436(1), 119 (2003)

[50] Skala T, Veltruska K, Moroseac M, Matolinova I, Cirera A, Matolin V, Surf. Sci., 566, 1217 (2004)

[51] Suda Y, Kawasaki H, Namba J, Iwatsuji K, Doi K, Wada K, Surf. Coat. Technol., 174, 1293 (2003)

[52] Toh S, Kaneko K, Hayashi Y, Tokunaga T, Moon WJ, J. Electron. Microsc., 53, 149 (2004)

[53] Lu YJ, Li J, Han J, Ng HT, Binder C, Partridge C, Meyyappan M, Chem. Phys. Lett., 391(4-6), 344 (2004)

[54] Feher FJ, Wyndham KD, Chem. Commun., 323 (1998)

[55] Gao C, Jin YZ, Kong H, Whitby RLD, Acquah SFA, Chen GY, Qian HH, Hartschuh A, Silva SRP, Henley S, Fearon P, Kroto HW, Walton DRM, J. Phys. Chem. B, 109(24), 11925 (2005)

[56] Naka K, Itoh H, Chujo Y, Nano Lett., 2, 1183 (2002)