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Issue
Korean Journal of Chemical Engineering,
Vol.31, No.7, 1105-1109, 2014
Synthesis of copper nanoparticles : An overview of the various methods
Khodashenas B, Ghorbani HR
The synthesis of metal nanoparticles has received much attention due to their wide range of applications. Copper nanoparticles have attracted much attention due to their unique optical and electrical properties. Copper is relatively cheap in comparison to precious metals like gold and silver and also has high antibacterial properties. This review gives a brief overview of the available research works considering the synthesis of copper nanoparticles by chemical, physical, and biological methods.
Keywords: Copper Nanoparticle; Synthesis; Chemical; Physical; Biological
[References]
  1. Konieczny J, Rdzawski Z, Int. Scientific J., 56(2), 53, 2012
  2. Parveen S, Misra R, Sahoo SK, Nanomed-Nanotechnol, 8(2), 147, 2012
  3. Phillips J, Bowen W, Cagin E, Wang W, Elsevier Science, 6, 101, 2011
  4. Muravieve DN, Macanas J, Farre M, Munoz M, Alegret S, Sens. Actuators. B, 118, 408, 2006
  5. Borkow G, Gabbay J, FASEB. J., 18, 1728, 2004
  6. Kyriacou SV, Brownlow WJ, Xu NH, Biochemistry, 43, 140, 2004
  7. Cioffi N, Torsi L, Ditaranto N, Tantillo G, Ghibelli L, Sabbatini L, Zacheo TB, D’Alessio M, Zambonin PG, Traversa E, Chem. Mater., 17(21), 5255, 2005
  8. Yoon KY, Byeon JH, Park JH, Hwang J, Sci. Total Environ., 373, 572, 2007
  9. Swadzba-Kwasny M, Chancelier L, Ng S, Manyar HG, Hardacre C, Nockemann P, Dalton Trans., 41(1), 219, 2012
  10. Wang GB, Wang X, Lou W, Hao J, Nanoscale Res. Lett., 6, 259, 2011
  11. Ghorbani HR, Safekordi AA, Attar H, Rezayat Sorkhabadi SM, Chem. Biochem. Eng. Q., 25(3), 317, 2011
  12. Zhu H, Zhang C, Yin Y, Nanotechnology, 16, 3079, 2005
  13. Niasari MS, Davar F, Mater. Lett., 63, 441, 2009
  14. Dhas NA, Raj CP, Gedanken A, Chem. Mater, 10, 1446, 1998
  15. Yeh MS, Yang YS, Lee YP, Lee HF, Yeh YH, Yeh CS, J. Phys. Chem. B, 103(33), 6851, 1999
  16. Chen L, Zhang D, Zhou H, Wan H, Mater. Sci. Eng., 415, 156, 2006
  17. Athawale AA, Katre PP, Kumar M, Majumdar MB, Mater. Chem. Phys., 91(2-3), 507, 2005
  18. Kapoor S, Mukherjee T, Chem. Phys. Lett., 370(1-2), 83, 2003
  19. Lee HJ, Lee G, Jang NR, Yun JH, Song JY, Kim BS, Nanotech., 1(1), 371, 2011
  20. Saif Hasan S, Singh S, Parikh RY, Dharne MS, Patole MS, Prasad BLV, Shouche YS, J. Nanosci. Nanotechnol., 8(6), 3191, 2008
  21. Chatterjee AK, Sarkar RK, Chattopadhyay AP, Aich P, Chakraborty R, Basu T, Nanotechnology, 23(8), 085103, 2012
  22. Wang Y, Chen M, Zhou F, Ma E, Nature, 419(6910), 912, 2002
  23. Kantam ML, Jaya VS, Lakshmi MJ, Reddy BR, Choudary BM, Bhargava SK, Catal. Commun., 8, 1963, 2007
  24. Prucek R, Kvitek L, Panacek A, Vancurova L, Soukupova J, Jancik D, Zboril R, J. Mater. Chem., 19, 8463, 2009
  25. Aslam M, Gopakumar G, Shoba TL, Mulla IS, Vijayamohanan K, Kulkarni SK, Urban J, Vogel W, Colloid Interface Sci., 205(1), 79, 2002
  26. Cheng XN, Zhang XF, Yin HB, Wang AL, Xu YQ, Appl. Surf. Sci., 253(5), 2727, 2006
  27. Su XD, Zhao JZ, Bala H, Zhu YC, Gao Y, Ma SS, Wang ZC, J. Phys. Chem. C., 111, 14689, 2007
  28. Wu CW, Mosher BP, Zeng TF, J. Nanopart. Res., 8, 965, 2006
  29. Zhu HT, Lin YS, Yin YS, J. Colloid Interface Sci., 277(1), 100, 2004
  30. Song XY, Sun SX, Zhang WM, Yin ZL, J. Colloid Interface Sci., 273(2), 463, 2004
  31. Park BK, Jeong S, Kim D, Moon J, Lim S, Kim JS, J. Colloid Interface Sci., 311(2), 417, 2007
  32. Gotoh Y, Igarashi R, Ohkoshi Y, Nagura M, Akamatsu K, Deki S, J. Mater. Chem., 10, 2548, 2000
  33. Ostaeva GY, Selishcheva ED, Pautov VD, Papisov IM, Polym. Sci., Ser. B., 50, 147, 2008
  34. Kapoor S, Joshi R, Mukherjee T, Chem. Phys. Lett., 354(5-6), 443, 2002
  35. Jackelen AML, Jungbauer M, Glavee GN, Langmuir, 15(7), 2322, 1999
  36. Dadgostar N, Ferdous S, Henneke DE, Mater. Lett., 64(1), 45, 2010
  37. Salzemann C, Lisiecki I, Brioude A, Urban J, Pileni MP, J. Phys. Chem. B, 108(35), 13242, 2004
  38. Kaminskiene Z, Prosycevas I, Stonkute J, Guobiene A, Acta Physica Polonica A., 123, 111, 2013
  39. Zhu HT, Zhang CY, Yin YS, J. Cryst. Growth, 270(3-4), 722, 2004
  40. Giuffrida S, Costanzo LL, Ventimiglia G, Bongiorno C, J. Nanopart. Res., 10, 1183, 2008
  41. Asim U, Shahid N, Naveed R, World Scientific Publishing Company, 7(5), 1230005, 2012
  42. Raja M, Subha J, Binti Ali F, Ryu SH, Mater. Manuf. Process., 23(8), 782, 2008
  43. Yu SH, J. Ceram. Soc. Jpn., 109, 65, 2001
  44. Rajamathi M, Seshadri R, Curr. Opin. Solid State Mater. Sci., 6, 337, 2002
  45. Baco-Carles V, Datas L, Tailhades Ph, International Scholarly Research Network ISRN Nanotechnology, 2011, Article ID 729594, 1-7. http://dx.doi.org/10.5402/2011/29594.
  46. Chen H, Lee JH, Kim YH, Shin DW, Park SC, Meng X, Yoo JB, J. Nanosci. Nanotechnol., 10, 629, 2010
  47. Lisiecki I, Billoudet F, Pileni MP, J. Phys. Chem., 100(10), 4160, 1996
  48. Wu SH, Chen DH, J. Colloid Interface Sci., 273(1), 165, 2004
  49. Wang Y, Chen P, Liu M, Nanotechnology, 17, 6000, 2006
  50. Goia DV, Matijevic E, New J. Chem., 22, 1203, 1998
  51. Yang JG, Yang SH, Tang CB, He J, Tang MT, Transactions of Nonferrous Metals Society of China, 17, s1181, 2007
  52. Kanninen P, Johans C, Merta J, Kontturi K, J. Colloid Interface Sci., 318(1), 88, 2008
  53. Khanna PK, More P, Jawalkar J, Patil Y, Rao NK, J. Nanopart. Res., 11, 793, 2009
  54. Grouchko M, Kamyshny A, Ben-Ami K, Magdassi S, J. Nanopart. Res., 11, 713, 2009
  55. Dang TD, Le TTT, Fribourg-Blanc E, Dang MC, Adv. Nat. Sci. Nanosci. Nanotechnol., 2, 015009, 2011
  56. Hashemipour H, Ehtesham Zadeh M, Pourakbari R, Rahimi P, Int. J. Phys. Sci., 6(18), 4331, 2011
  57. Xiong J, Wang Y, Xue Q, Wu X, Green Chem., 13, 900, 2011
  58. Pai YH, Chang YC, Shieu FS, 207th ECS Meeting, Abstract No. 80, 2005
  59. Theivasanthi T, Alagar M, Int. J. Phys. Sci., 6(15), 3662, 2011
  60. Amendola V, Meneghetti M, Phys. Chem. Chem. Phys. (2009), DOI:10.1039/b900654k.
  61. Amendola V, Polizzi S, Meneghetti M, J. Phys. Chem. B, 110(14), 7232, 2006
  62. Suryanarayana C, Prog. Mater. Sci., 46(1-2), 1, 2001
  63. Benjamin JS, in New Materials by Mechanical Alloying Techniques, Eds. Arzt E, Schultz L (DGM Information gesellschaft, Oberursel, Germany), p 1-18, 1989
  64. Lisiecki I, Filankembo A, Sack-Kongehl H, Weiss K, Pileni MP, Urban J, Phys. Rev. B Condens. Matter., 61, 4968, 2000
  65. Barrabes N, Just J, Dafinov A, Medina F, Fierro JLG, Sueiras JE, Salagre P, Cesteros Y, Appl. Catal. B: Environ., 62(1-2), 77, 2006
  66. Jiang W, Yatsui K, IEEE Trans. Plasma Sci., 26(5), 1498, 1998
  67. Muraia K, Watanabea Y, Saito Y, J. Ceram. Process. Res., 8, 114, 2007
  68. Dash PK, Balto YJ, Res. J. Nanosci. Nanotechnol., 1, 25, 2011
  69. Shen TD, Koch CC, Acta Mater., 44, 753, 1996
  70. Gaffet E, Harmelin M, Faudot F, J. Alloys Compd., 194(1), 23, 1993
  71. Ding J, Tsuzuki T, McCormik PG, Street R, J. Alloys Compd., 234, 1, 1996
  72. Cioffi N, Ditaranto N, Torsi L, Sabbatini L, Metallic Nanomaterials, 1, 70, 2010
  73. Saito M, Yasukawa K, Opt. Mater., 30, 1201, 2008
  74. Song RG, Yamaguchi M, Nishimura O, Suzuki M, Appl. Surf. Sci., 253(6), 3093, 2007
  75. Kim D, Jang D, Appl. Surf. Sci., 253(19), 8045, 2007
  76. Muniz-Miranda M, Gellini C, Giorgetti E, J. Phys. Chem. C., 115, 5021 (2011), DOI:10.1021/jp1086027.
  77. Lee J, Kim DK, Kang W, Bull. Korean, Bull. Korean Chem. Soc., 27, 1869, 2006
  78. Sen P, Proc. Indian Acad. Sci. (Chem. Sci.), 115, 499, 2003
  79. Raffi M, Mehrwan S, Bhatti TM, Akhter JI, Hameed A, Yawar W, Hasan MM, Ann. Microbiol., 60, 75, 2010
  80. Das R, Das BK, Shyam A, J. Korean Phys. Soc., 61(5), 710, 2012
  81. Ahmad A, Senapati S, Khan MI, Kumar R, Sastry M, Langmuir, 19(8), 3550, 2003
  82. Bansal V, Rautaray D, Bharde A, Ahire K, Sanyal A, Ahmad A, Sastry M, J. Mater. Chem., 15, 2583, 2005
  83. Varshney R, Bhadauria S, Gaur MS, Nano Biomed Eng., 4, 99, 2012
  84. Ramanathan R, Bhargava SK, Bansal V, in Rose Amal (Ed.) Chemeca Conference. Engineering A Better World, Australia, pp. 1-8, 2011
  85. Varshney R, Bhadauria S, Gaur MS, Pasricha R, JOM (Journal of Metals), 62(12), 102, 2010
  86. Varshney R, Bhadauria S, Gaur MS, Pasricha R, Nano Biomed. Eng., 3(2), 115, 2011
  87. Pavani KV, Srujana N, Preethi G, Swati T, Letters in Applied NanoBioScience, 2(2), 110, 2013
  88. Mallikarjuna K, Narasimha G, Dillip GR, Praveen B, Shreedhar B, Lakshami CS, Reddy BVS, Raju BDP, Digest Journal of Nanomaterials and Biostructures, 6(1), 181, 2011
  89. Khalil MMH, Ismail EH, El-Baghdady KZ, Mohamed D, Arabian Journal of Chemistry (2013), DOI:10.1016/j.arabjc.2013.04.007.
  90. Awwad AM, Salem NM, Abdeen AO, Nanosci. Nanotechnol., 2, 164, 2012
  91. Yallappa S, Manjanna J, Sindhe MA, Satyanarayan ND, Pramod SN, Nagaraja K, Spectrochim. Acta A, 110, 108, 2013
  92. Bali R, Razak N, Lumb A, Harris AT, IEEE Xplore (2006), DOI:10.1109/ICONN.2006.340592.
  93. Valodkar M, Jadeja RN, Thounaojam MC, Devkar RV, Thakore S, Mater. Chem. Phys., 128(1-2), 83, 2011
  94. Subhankari I, Nayak PL, World Journal of Nano Science & Technology, 2(1), 10 (2013), DOI:10.5829/idosi.wjnst.2013.2.1.21133.
  95. Subhankari I, Nayak PL, World Journal of Nano Science & Technology, 2(1), 14 (2013), DOI:10.5829/idosi.wjnst.2013.2.1.21134.
[Cited By]
  1. Jeong Y, Kang JY, Kim I, Jeong H, Park JK, Park JH, Jung JC, Korean Journal of Chemical Engineering, 33(1), 114, 2016
  2. Sun SH, Jung SC, Korean Journal of Chemical Engineering, 33(3), 1075, 2016
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