Electro-deposition Method for Platinum Nano-particles Synthesis

Authors

  • Md. Aminul Islam University of Rajshahi
  • M. Saidul Islam University of Rajshahi

DOI:

https://doi.org/10.18034/ei.v1i2.208

Keywords:

Platinum nanoparticles, Electrodeposition, Cyclic voltammetry, Electrodes, Precursors, Application

Abstract

This review explores the recent development in the synthesis process of platinum nanoparticles by electro deposition method. Various developed supporting electrodes used in synthesis process of platinum nanoparticles have been discussed. It is possible to control the particle size by adjusting electrolysis parameters and to improve homogeneity of platinum particles by changing the composition of electrolytic solutions. Various electrolytic compositions also discuss briefly for single or mixed electrodes.

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Author Biographies

Md. Aminul Islam, University of Rajshahi

Department of Materials Science and Engineering, University of Rajshahi, Rajshahi, Bangladesh

M. Saidul Islam, University of Rajshahi

Department of Materials Science and Engineering, University of Rajshahi, Rajshahi, Bangladesh

References

A. Kongkanand, S. Kuwabata,G. Girishkumar, and P. Kamat Langmuir, 22, 2392-2396, (2006).

B. Andreaus, F. Maillard, J. Kocylo, E. R. Savinova, and M. Eikerling J. Phys. Chem. B, 110, 21028-21040(2006).

B. Yang, Q. Lu, Y. Wang, L. Zhuang, P. Liu, J. Wang and R. Wang, Chem. Mater., 15, 3552,(2003).

Bachtold A, Henry M, Terrier C, Strunk C, Sch€onenberger C, Salvetat J P, Bonard JM, Forr€o L App Phys Lett ,73: 274, (1998).

Bahr JL, Tour JM, Chem Mater, 13:3823, (2001).

Bahr JL, Yang JP, Kosynkin DV, Bronikowski MJ, Smalley RE, Tour JM , J Am Chem Soc 123:6536, (2001).

Balogh L, Tomalia DA, J Am Chem Soc, 120:7355, (1998).

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

Bessel CA, Laubernds K, Rodriguez NM, Baker RTK J Phys Chem B, 105:1115 (2001).

Biallozor S, Kupniewska A, Jasulaitene V, Fuel Cell (Weinh) 3:8. (2003).

Bouzek K, Mangold KM, Jüttner K J Appl Electrochem, 31:501, (2001).

Burchell TD (1999) In: Carbon materials for advances technologies. Pergamon, New York

Castro Luna AM , J Appl Electrochem 30:1137, (2000).

Chu X, Duan D, Shen G, Yu R Talanta, 71:2040, (2007).

Crooks RM, Zhao M, Sun L, Checkik V, Yeung LK, Acc Chem Res, 34:181(2001)

Duarte MME, Pilla AS, Sieben JM, Mayer CE Electrochem Commun 8:159, (2006).

Dyke CA, Tour JM , J Am Chem Soc, 125:1156, (2003).

Dyke CA, Tour JM ,Nano Lett, 3:1215,(2003).

F. Gloaguen, J.-M. Leager, C. Lamy, J. Appl. Electrochem. 27, 1052-1060, (1997).

G. Lu, G. Zangari, J. Phys. Chem. B 109, 7998-8007, (2005).

Girishkumar, G.; Rettker, M.; Underhile, R.; Binz, D.; Vinodgopal, K.; McGinn, P.; Kamat, P. Langmuir, 21, 8487, (2005).

Golabi SM, Nozad A J Electroanal Chem, 521:161, (2002).

Guan-Ping Jin , Juan Li & Xia Peng J Appl Electrochem ,39:1889–1895, (2009).

Guo D J, Li H L High dispersion and electrocatalytic properties of Pt nanoparticles on SWNT bundles. J Electroanal Chem 573: 197, (2004)

H. William, A. Valdecir and R. Gonzalez, Electrochim. Acta, 47, 3715,(2002).

H.-F. Cui, J.-S. Ye, W.-D. Zhang, J. Wang, F.-S. Sheu, J. Electroanal. Chem. 577 295-302, (2005).

Hammache H, Makhloufi L, Saidani B, Synth Met, 123:515, (2001).

He P, Liu H, Li Z, Li J J Electrochem Soc 152:E146, (2005)

He Z, Chen J, Liu D, Tang H, Deng W, Kuang Y Mater Chem Phys, 85:396, (2004).

Hrapovic S, Liu Y, Male KB, Luong JHT, Anal Chem, 76:1083, (2004).

Hrapovic S, Majid E, Liu Y, Male K, Luong JHT, Anal Chem, 78:5504, (2006).

Hyeon T, Han S, Sung YE, Park KW, Kim YW Angew Chem Int Ed, 42:4352, (2003).

Iijima S Nature 354: 56, (1991).

J. H. Choi, K. W. Park, H. K. Lee, Y. M. Kim, J. S. Lee and Y. E. Sung, Electrochim. Acta, 48, 2781(2003).

J.-H. Yoon, G. Muthuraman, J.E. Yang, Y.-B. Shim, M.-S. Won, Electroanalysis 19 1160-1166. (2007)

J.-S. Ye, H.-F. Cui, Y. Wen, W. D. Zhang, G. Q. Xu, F.-S. Sheu, Microchim. Acta 152 267-275, (2006).

J.V. Zoval, J. Lee, S. Gorer, R.M. Penner, J. Phys. Chem. B 102, 1166-1175, (1998).

Jiang L, Sun G, Zhao X, Zhou Z, Yan S, Tang S, Wang G, Zhou B, Xin Q Electrochim Acta 50:2371, (2005).

Jian-Shan Y., Hui-Fang C. Ying Wen, Wei De Zhang, Guo Qin Xu, and Fwu-Shan Sheu Microchim Acta, 152, 267–275, (2006).

Jin GP, Ding YF, Zheng PP J Power Sources 166:80, (2007).

Jin Shi & Xin-Sheng Li & Yu-Qi Hu & Yi-Xin Hua J Solid State Electrochem, 12:1555–1559, (2008).

Jovanovic VM, Terzic S, Tripkovic AV, Popovic KD, Lovic JD, Electrochem Commun, 6:1254, (2004).

K. A. Friedrich, K. P. Geyzers, A. J. Dickinson and U. Stimming, J. Electroanal. .

K.H. Choi, H.S. Kim, T.H. Lee, J. Power Sources, 75, 230-235, (1998).

Kim YT, Ohshima K, Higashimine K, Uruga T, Takata M, Suematsu H, Mitani T Angew Chem, 118:421, (2006).

Kinoshita K (1998) In: Carbon, electrochemical and physicochemical properties. Wiley, New York

Knecht MR, Wright DW, Chem Mater, 16:4890, (2004).

Ledesma-Garci J, Escalante Garci IL, Rodri FJ, Chapman TW, Godinez LA J Appl Electrochem, 38:515, (2008) .

Lenoe A, Marino W, Scharifker BR, J Electrochem Soc, 139:438, (1992).

Li J, Cassell A, Delzeit L, Han J, Meyyappan M. J Phys Chem B ,106: 9299, (2002).

Loffler M-S, Natter H, Hempelmann R, Wippermann K, Electrochim Acta ,48:3047, (2003).

M. Chikae, K. Idegami, K. Kerman, N. Nagatani, M. Ishikawa, Y. Takamura, E. Tamiya, Electrochem. Commu. 8, 1375-1380, (2006).

M.M. Waje, X. Wang,W. Li, Y. Yan, Nanotechnology 16, S395-S400, (2005).

Malinauskas A, Synth Met 107:75, (1999).

Marsh H, Rodriguez-Reinoso F (1997) In: Sciences of carbon materials. Publicaciones de la Universidad de Alicante, Alicante

Mikhaylova AA, Molodkina EB, Khazova OA, Bagotzky VS, J Electroanal Chem 509:119, (2001).

Natter H, Hempelmann R Electrochim Acta 49:51, (2003).

Niu L, Li Q, Wei F, Chen X, Wang H, J Electroanal Chem 544:121, (2003).

Niu L, Li Q, Wei F, Wu S, Liu P, Cao X, J Electroanal Chem 578:331, (2005).

Okada T, Arimura N, Ono C, Yuasa M ,Electrochim Acta, 51:1130, (2005).

Pan Ch, Dassenoy F, Casanove M-J, Philippot K, Amiens C, Lecante P, Mosset A, Chaudret B, J Phys Chem B ,103:10098, (1999).

Plyasova LM, Molina IY, Gavrilov AN, Cherepanova SV, Cherstiouk OV, Rudina NA, Savinova ER, Tsirlina GA Electrochim Acta 51:4477, (2006).

Podlovchenko BI, Andreev VN, Russ Chem Rev 71:837,(2002).

R.G. Allen, C, Lim, L.X. Yang, K. Scott, S. Roy, J. Power Sources 143, 142-149, (2005).

R.S. Jayashree, J.S. Spendelow, J. Yeom, C. Rastogi, M.A. Shannon, P.J.A. Kenis, Electrochim. Acta, 50, 4674-4682, (2005).

Rajendra Prasad K, Munichandraiah N, J Power Sources, 103:300, (2002).

Rodriguez-Nieto FJ, Morante-Catacora TY, Cabrera CR, J Electroanal. Chem. 571:15, (2004).

Rong LQ, Yang C, Qian QY, Xia XH, Talanta, 72:819, (2007).

S. Adora,Y. Soldo-Olivier, R. Faure, R. Durand, E. Dartyge and F. Baudelet J. Phys. Chem. B, 105, 10489-10495, (2001).

S. D. Kushch, N. S. Kuyunko, and B. P. Tarasov Kinetics and Catalysis, Vol. 50, No. 6, 860–862 ,(2009)

S. Domı´nguez-Domı´nguez , J. Arias-Pardilla A. Berengumer-Murcia, E. Morallo´n, D. Cazorla-Amoro´s J Appl Electrochem 38:259–268, (2008).

S.M.S.I. Dulal, E.A. Charles, J. Alloys Compd. 455,274-279, (2008).

S.M.S.I. Dulal, E.A. Charles, S. Roy, Electrochim. Acta ,49, 2041-2049, (2004).

S.M.S.I. Dulal, E.A. Charles, S. Roy, J. Appl. Electrochem. 34, 151-158,(1999).

S.M.S.I. Dulal, E.A. Charles, Trans. Inst. Met. Finish. 86, 260-266, (2008).

S.M.S.I. Dulal, The Electrochemical and Physical Properties of Nanostructured Magnetic Multilayers, PhD thesis, University of Newcastle upon Tyne, UK (2003).

Santhosh P, Gopalan A, Vasudevan T, Lee KP, Appl Surf Sci 252:7964, (2006).

Shi J, Wang Z, Li HL , J Nanoparticle Research, 8:743, (2006).

Steigerwalt ES, Degula GA, Cliffel DE, Lukehart CM, J Phys Chem B 105:8097, (2001).

Steigerwalt ES, Deluga GA, Lukehart CM J Phys Chem B, 106:760, (2002).

Swathirajan S, Mikhail YM, J Electrochem Soc, 139:2105, (1992).

T. Maiyalagan J Solid State Electrochem, 13:1561–1566, (2009).

Tang H, Chen J, Nie L, Liu D, Deng W, Kuang Y, Yao S, J Colloid Interface Sci 269:26, (2004).

Tang H, Chen J, Yao S, Nie L, Deng G, Kuang Y, Anal Biochem, 331:89, (2004).

Tang H, Chen J, Yao S, Nie L, Kuang Y, Huang Z, Wang D, Ren Z Mater Chem Phys 92:548, (2005)

Tsai YC, Chien HY, J Nanosci Nanotechnol, 7:1611, (2007).

Ueda M, Dietz H, Anders A, Kneppe H, Meixner A, Plieth W Electrochim Acta, 48:377, (2002).

Vijayaraghavan G, Stevenson KJ, Langmuir, 23:5279, (2007) .

Wang Z, Zhu ZZ, Shi J, Li HL Appl Surf Sci, 253:8811, (2007).

X. Dai, R.G. Compton, Analyst 131, 516-521, (2006).

Y. Takasu, T. Fujiwara, Y. Murakami, K. Sasaki, M. Oguri T. Asaki and W. Sugimoto, J. Electrochem. Soc. 147, 4421,(2000).

Yang J, Lee JY, Deivaraj TC, Too HP , Langmuir, 19:10361, (2003).

Yang J, Lee JY, Too HP Anal Chim Acta 571:206, (2006).

Yassar A, Roncali J, Garnier F, J Electroanal Chem, 225:53, (1988)

Ye H, Crooks RM J Am Chem Soc 129:3627, (2007).

Ye H, Crooks RM, J Am Chem Soc 127:4930, (2005) .

Ye H, Scott RWJ, Crooks RM, Langmuir , 20:2915, (2004).

Ye J, Cui H, Wen Y, Zhang W, Xu G, Sheu F Microchim Acta, 152:267, (2006).

Yogeswaran U, Thiagarajan S, Chen SM. Anal Biochem, 365:122, (2007).

Yoshitake T, Shimakawa Y, Kuroshima S, Kimura H, Ichihashi T, Kubo Y Physica B 323:124, (2002).

Yu RQ, Chen LW, Liu QP, Chem Mater 10:718, (1998).

Yu-Chen Tsai & Yu-Huei Hong J Solid State Electrochem, 12:1293–1299, (2008).

Yue Zhao1, Louzhen Fan1;_, Haizheng Zhong2, and Yongfang Li Microchim Acta,158, 327–334, (2007).

Zhao M, Crooks RM , Adv Mater, 11:217,(SICI) 1521-4095, (1999).

Zhao M, Crooks RM, Angew Chem Int Ed ,38:364, (1999).

Zhao M, Sun L, Crooks RM, J Am Chem Soc, 120:4877, (1998).

Zhao MQ, Crooks RM, Chem Mater, 11:3379, (1999).

Zhong Q, Xiong L, Zhong Z, Li W (1996) Acta Physchim Sin 12:351

Zhu N, Chang Z, He P, Fang Y, Anal Chim Acta, 545:21, (2005).

Zoval JV, Lee J, Gorer S, Penner RM J Phys Chem B 102:1166, (1998).

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Published

2013-12-16

How to Cite

Islam, M. A., & Islam, M. S. (2013). Electro-deposition Method for Platinum Nano-particles Synthesis. Engineering International, 1(2), 62–70. https://doi.org/10.18034/ei.v1i2.208

Issue

Vol. 1 No. 2 (2013): July - December

Section

Peer Reviewed Articles

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