Carbon nanotubes for the synthesis of ceramicmatrix composite (cleaning, dispersion, surface modification) (Review)

In connection with the continuing decrease in the cost of carbon nanotubes (CNT) and the promising properties of ceramic-matrix composites (CMC) reinforced with CNTs, their wide application in industry is on the agenda. It is necessary to create cheap technologies for the production of CNTs to do this. The review of the technological stages of the industrial production of complex-shaped products from KMK reinforced CNTs is given: the cleaning of raw materials after their production, the dispersion of aggregates and some methods for modifying their surface. Ref. 93. Tab. 3.

1. Бакунов, В. С. К вопросу об анализе структуры в керамике / В. С. Бакунов, А. В. Беляков // Неорган. мате- риалы. ― 1996. ― Т. 32, № 2. ― С. 243‒248. Bakunov, V. S. Analysing the structure of ceramics / V. S. Bakunov, A. V. Belyakov // Inorganic Mater. ― 1996. ― Vol. 32, № 2. ― P. 220‒222.

2. Yuca, N. Thermal and electrical properties of carbon nanotubes purified by acid digestion / N. Yuca, N. Karatepe, F. Yakuphanoglu [et al.] // International Scholarly and Scientific Research & Innovation. ― 2011. ― Vol. 5, № 7. ― P. 484‒489.

3. Haddon, R. C. Purification and separation of carbon nanotubes / R. C. Haddon, J. Sippel, A. G. Rinzler [et. al.] // MRS Bulletin. ― 2004. ― Vol. 29, № 4. ― P. 252‒259.

4. Park, J. Purification strategies and purity visualization techniques for single-walled carbon nanotubes / J. Park, S. Banerjee, T. Hemraj [et al.] // J. Mater. Chem. ― 2006. ― Vol. 16, №. 2. ― P. 141‒154.

5. Hou, P. X. Purification of carbon nanotubes / P. X. Hou, C. Liu, H. M. Cheng // Carbon. ― 2008. ― Vol. 46, № 15. ― Р. 2003‒2025.

6. Zeng, Y. Photochemical vapor generation for removing nickel impurities from carbon nanotubes and its real-time monitoring by atomic fluorescence spectrometry / Y. Zeng, C. Zheng, X. Hou [et al.] // Microchem. J. ― 2014. ― Vol. 117, № 11. ― P. 83‒88.

7. Qiu, H. Diameter-selective purification of carbon nanotubes by microwave-assisted acid processing / H. Qiu, Y. Maeda, T. Akasaka [et al.] // Sep. Purif. Technol. ― 2012. ― Vol. 96. ― P. 182‒186.

8. Pełech, U. Removal of metal particles from carbon nanotubes using conventional and microwave methods / U. Pełech, A. Narkiewicz, A. Kaczmarek [et al.] // Sep. Purif. Technol. ― 2014. ― Vol. 136. ― P. 105‒110.

9. Saifuddin, N. Carbon nanotubes: a review on structure and their interaction with proteins. Hindawi Publishing Corporation / N. Saifuddin, A. Z. Raziah, A. R. Junizah // J. Chem. ― 2013. ― Vol. 2013. ― Article ID 676815. ― P. 18.

10. Dillon, A. A simple and complete purification of singlewalled carbon nanotube materials / A. Dillon, T. Gennett, K. M. Jones [et al.] // Adv. Mater. ― 1999. ― Vol. 11. ― P. 1354‒1356.

11. Borowiak-Palen, E. Reduced diameter distribution of single-wall carbon nanotubes by selective oxidation / E. Borowiak-Palen, T. Pichler, X. Liu [et al.] // Chem. Phys. Lett. ― 2002. ― Vol. 363, № 5/6. ― P. 567‒572.

12. Chattopadhyay, D. Complete elimination of metal catalysts from single wall carbon nanotubes / D. Chattopadhyay, I. Galeska, F. Papadimitrakopoulos // Carbon. ― 2002. ― Vol. 40, № 7. ― P. 985‒988.

13. Chiang, I. W. Purification and characterization of single-wall carbon nanotubes (SWNTs) obtained from the gas-phase decomposition of CO (HiPco process) / I. W. Chiang, B. E. Brinson, A. Y. Huang [et al.] // J. Phys. Chem. B. ― 2001. ― Vol. 105, № 35. ― P. 8297‒8301,

14. Chiang, I. W. Purification and characterization of single-wall carbon nanotubes / I. W. Chiang, B. E. Brinson, R. E. Smalley [et al.] // J. Phys. Chem. B. ― 2001. ― Vol. 105, № 6. ― P. 1157‒1161.

15. Harutyunyan, A. R. Purification of single-wall carbon nanotubes by selective microwave heating of catalyst particles / A. R. Harutyunyan, B. K. Pradhan, J. Chang [et al.] // J. Phys. Chem. B. ― 2002. ― Vol. 106, № 34. ― P. 8671‒8675.

16. Farkas, E. Length sorting cut single wall carbon nanotubes by high performance liquid chromatography / E. Farkas, M. E. Anderson, Z. Chen [et al.] // Chem. Phys. Lett. ― 2002. ― Vol. 363, № 1/2. ― P. 111‒116.

17. Moon, J. M. High-yield purification process of singlewalled carbon nanotubes / J. M. Moon, K. H. An, Y. H. Lee [et al.] // J. Phys. Chem. B. ― 2001. ― Vol. 105, № 24. ― P. 5677–5681.

18. Huang, S. Plasma etching for purification and controlled opening of aligned carbon nano-tubes / S. Huang, L. Dai // J. Phys. Chem. B. ― 2002. ― Vol. 106, № 14. ― P. 3543‒3545.

19. Xiang, P. H. Purification of single-walled carbon nanotubes synthesized by the hydrogen arc-discharge method / P. H. Xiang, C. Liu, Y. Tong [et al.] // J. Mater. Res. ― 2001. ― Vol. 16, № 9. ― P. 2526‒2529.

20. Kajiura, H. High-quality single-walled carbon nanotubes from arc-produced soot / H. Kajiura, S. Tsutsui, H. Huang [et al.] // Chem. Phys. Lett. ― 2002. ― Vol. 364, № 5/6. ― P. 586‒592.

21. Hajime, G. Method of purifying single wall carbon nanotubes from metal catalyst impurities / G. Hajime, F. Terumi, F. Yoshiya [et al.] // Honda Giken Kogyo Kabushiki Kaisha. Minatoku. Japan. ― 2002.

22. Hu, H. Nitric acid purification of single-walled carbon nanotubes / H. Hu, B. Zhao, M. E. Itkis [et al.] // J. Phys. Chem. B. ― 2003. ― Vol. 107, № 50. ― P. 13838‒13842.

23. Jeong, T. A new purification method of single-wall carbon nanotubes using H2S and O2 mixture gas / T. Jeong, W. Y. Kim, Y. B. Hahn // Chem. Phys. Lett. ― 2001. ― Vol. 344, № 1/2. ― P. 18‒22.

24. Fang, H. T. Purification of single-wall carbon nanotubes by electrochemical oxidation / H. T. Fang, C. G. Liu, C. Liu [et al.] // Chem. Mater. ― 2004. ― Vol. 16, № 26. ― P. 5744‒5750.

25. Unger, E. Electrochemical functionalization of multiwalled carbon nanotubes for solvation and purification / E. Unger, A. Graham, F. Kreupl [et al.] // Current Applied Physics. ― 2002. ― Vol. 2, № 1. ― P. 107‒111.

26. Nepal, D. A facile and rapid purification method for single-walled carbon nanotubes / D. Nepal, D. S. Kim, K. E. Geckeler // Carbon. ― 2005. ― Vol. 43, № 3. ― P. 660‒662.

27. Jia, H. Centrifugal purification of chemically modified single-walled carbon nanotubes / H. Jia, Y. Lian, M. O. Ishitsuka [et al.] // Sci. Technol. Adv. Mater. ― 2005. ― Vol. 6. ― P. 571‒581.

28. Yu, H. Separation of mixed SWNTs and MWNTs by centrifugal force an experimental study / H. Yu, Y. Qu, Z. Dong [et al.] // In Proceedings of the 7th IEEE International Conference on Nanotechnology (IEEE-NANO 07). ― August 2007. ― P. 1212‒1216.

29. Li, J. Y. A simple purification for single-walled carbon nanotubes / J. Y. Li, Y. F. Zhang // Physica E. ― 2005. ― Vol. 28, № 3. ― P. 309‒312.

30. Houjin, H. Sony Corporation Japan / H. Houjin, S. Masashi, Y. Atsuo [et al.] // 2001. ― JP107130245812 35- 20020613 WO P 7-12.

31. Bandow, S. Purification of single-wall carbon nanotubes by microfiltration / S. Bandow, A. M. Rao, K. A. Williams [et al.] // J. Phys. Chem. B. ― 1997.― Vol. 101, № 44. ― P. 8839‒8842.

32. Shelimov, K. B. Purification of single-wall carbon nanotubes by ultrasonically assisted filtration / K. B. Shelimov, R. O. Esenaliev, A. G. Rinzler [et al.] // Chem. Phys. Lett. ― 1998. ― Vol. 282, № 5/6. ― P. 429‒434.

33. Korneva, G. Carbon nanotubes loaded with magnetic particles / G. Korneva, H. H. Ye, Y. Gogotsi [et al.] // Nano Lett. ― 2005. ― Vol. 5, № 5. ― P. 879‒884.

34. Wiltshire, J. G. Magnetic separation of Fe catalyst from single-walled carbon nanotubes in an aqueous surfactant solution / J. G. Wiltshire, L. J. Li, A. N. Khlobystov [et al.] // Carbon. ― 2005. ― Vol. 43, № 6. ― P. 1151‒1155.

35. Thien-Nga, L. Mechanical purification of single-walled carbon nanotube bundles from catalytic particles / L. Thien-Nga, K. Hernadi, E. Ljubivic [et al.] // Nano Lett. ― 2002. ― Vol. 2, № 12. ― P. 1349‒1352.

36. Martínez, M. T. Microwave single walled carbon nanotubes purification / M. T. Martínez, M. A. Callejas, A. M. Benito [et al.] // Chem. Commun. ― 2002. ― № 9. ― P. 1000, 1001.

37. Vázquez, E. V. Microwave-assisted purification of HIPCO carbon nanotubes / E. V. Vázquez, V. Georgakilas, M. Prato // Chem. Commun. ― 2002. ― № 20. ― P. 2308, 2309.

38. Ma, J. Purification of single-walled carbon nanotubes by a highly efficient and non-destructive approach / J. Ma, J. N. Wang // Chem. Mater. ― 2008. ― Vol. 20, № 9. ― P. 2895‒2902.

39. Pifferi, V. Multi-walled carbon nanotubes (MWУНТ) modified electrodes: Effect of purification and functionalization on the electroanalytical performances / V. Pifferi, G. Cappelletti, C. Di Bari [et al.] // Electrochim. Acta. ― 2014. ― Vol. 146, № 10. ― P. 403‒410.

40. Bortolamiol, T. Double-walled carbon nanotubes: quantitative purification assessment, balance between purification and degradation and solution filling as an evidence of opening / T. Bortolamiol, P. Lukanov, A.-M. Galibert [et al.] // Carbon. ― 2014. ― Vol. 78, № 11. ― P. 79‒90.

41. Colomer, J. F. Purification of catalytically produced multi-wall nanotubes / J. F. Colomer, P. Piedigrosso, I. Willems [et al.] // Chem. Soc., Faraday Trans. ― 1998. ― Vol. 94. ― P. 3753‒3758.

42. Suzuki, T. Purification of single-wall carbon nanotubes by using high-pressure micro reactor / T. Suzuki, S. Inoue, Y. Ando // Diamond Relat. Mater. ― 2008. ― Vol. 17, Iss. 7‒10. ― P. 1596‒1599.

43. Chungchamroenkit, P. Residue catalyst support removal and purification of carbon nano-tubes by NaOH leaching and froth flotation / P. Chungchamroenkit, S. Chavadej, U. Yanatatsaneejit [et al.] // Sep. Purif. Technol. ― 2008. ― Vol. 60, Iss. 2. ― P. 206‒214.

44. Raymundo-Piñero, E. A single step process for the simultaneous purification and opening of multiwalled carbon nanotubes / E. Raymundo-Piñero, T. Cacciaguerra, P. Simon [et al.] // Chem. Phys. Lett. ― 2005. ― Vol. 412. ― P. 184‒189.

45. Delpeux, S. High yield carbon nanotubes from the catalytic decomposition of acetylene on in-situ formed Co nanoparticles / S. Delpeux, K. Szostak, E. Frackowiak [et al.] // J. Nanosci. Nanotec. ― 2002. ― Vol. 2. ― P. 481‒484.

46. Raymundo-Piсero, E. KOH and NaOH activation mechanisms of multiwalled carbon nanotubes with different structural organization / E. Raymundo-Piсero, P. Azaпs, T. Cacciaguerra [et al.] // Carbon. ― 2005. ― Vol. 43, № 4. ― P.786‒795.

47. Barkauskas, J. A novel purification method of carbon nanotubes by high-temperature treatment with tetrachloromethane / J. Barkauskas, I. Stankevičienė, A. Selskis // Sep. Purif. Technol. ― 2010. ― Vol. 71, Iss. 3. ― P. 331‒336.

48. King, S. G. Highly aligned arrays of super resilient carbon nanotubes by steam purification / S. G. King, L. McCafferty, V. Stolojan [et al.] // Carbon. ― 2015. ― Vol. 84, № 3. ― P. 130‒137.

49. Bu, Y. Y. Industrial compatible re-growth of vertically aligned multiwall carbon nanotubes by ultrafast pure oxygen purification process / Y. Y. Bu, K. Hou, D. Engstrom // Diamond Relat. Mater. ― 2011. ― Vol. 20, Iss. 5/6. ― P. 746‒751.

50. Ling, X. The effect of different order of purification treatments on the purity of multi-walled carbon nanotubes / X. Ling, Y. Wei, L. Zou [et al.] // Appl. Surf. Sci. ― 2013. ― Vol. 276, № 1. ― P. 159‒166.

51. Ikazaki, F. Chemical purification of carbon nanotubes by use of graphite-intercalation compounds / F. Ikazaki, S. Ohshima, K. Uchida [et al.] // Carbon. ― 1994. ― Vol. 32, № 8. ― P. 1539‒1542.

52. Chen, Y. J. Purification and opening of carbon nanotubes via bromination / Y. J. Chen, M. L. H. Green, J. L. Griffin [et al.] // Adv. Mater. ― 1996. ― Vol. 8, № 12. ― P. 1012‒1015.

53. Harris, P. J. F. Carbon nanotube composites / P. J. F. Harris // Int. Mater. Rev. ― 2004. ― Vol. 49, № 1. ― P. 31‒43.

54. Huang, Y. Y. Dispersion of carbon nanotubes: mixing, sonication, stabilization, and composite properties / Y. Y. Huang, E. M. Terentjev // Polymers. ― 2012. ― Vol. 4, № 1. ― P. 275‒295.

55. Premkuma, T. Nanotube dispersion: carbon nanotubes in the liquid phase: addressing the issue of dispersion / T. Premkuma, R. Mezzenga, K. E. Geckeler // Small. ― 2012. ― Vol. 8. ― P. 1299‒1313.

56. Andrews, R. Fabrication of carbon multi-wall nanotube/ polymer composites by shear mixing / R. Andrews, D. Jacques, M. Minot [et al.] // Macromol. Mater. Eng. ― 2002. ― Vol. 287. ― P. 395‒403.

57. Park, J. H. Carbon nanotube composite: Dispersion routes and field emission parameters / J. H. Park, P. S. Alegaonkar, S. Y. Jeon [et al.] // Compos. Sci. Technol. ― 2008. ― Vol. 68. ― P. 753‒759.

58. Wichmann, M. H. G. Multi-wall carbon nanotube/ epoxy composites produced with a masterbatch process / M. H. G. Wichmann, J. Sumeth, B. Fiedler [et al.] // Mech. Comp. Mater. ― 2006. ― Vol. 42. ― P. 395‒406.

59. Huang, Y. Y. Dispersion and rheology of carbon nanotubes in polymers / Y. Y. Huang, E. M. Terentjev // Int. J. Mater. Form. ― 2008. ― Vol. 1. ― P. 63‒74. 60. Huang, Y. Y. Strength of nanotubes, filaments, and nanowires from sonication-induced scission / Y. Y. Huang, T. P. J. Knowles, E. M. Terentjev // Adv. Mater. ― 2009. ― Vol. 21. ― P. 3945‒3948.

60. Yamamoto, Y. Improved bath sonication method for dispersion of individual single-walled carbon nanotubes using new triphenylene-based surfactant / Y. Yamamoto, Y. Miyauchi, J. Motoyanagi [et al.] // Jpn. J. Appl. Phys. ― 2008. ― Vol. 47. ― P. 2000‒2004.

61. Ramasubramaniama, R. Homogeneous carbon nanotube/polymer composites for electrical applications / R. Ramasubramaniama, J. Chen // Appl. Phys. Lett. ― 2003. ― Vol. 83. ― P. 2928‒2930.

62. Russel, W. B. Colloidal dispersions / W. B. Russel, D. A. Saville, W. R. Schowalter. ― Cambridge and New York : Cambridge University Press, 1989. ― XVIII. ― 525 p.

63. Sun, Z. Quantitative evaluation of surfactant-stabilized single-walled carbon nanotubes: Dispersion quality and its correlation with zeta potential / Z. Sun, V. Nicolosi, D. Rickard [et al.] // J. Phys. Chem. C. ― 2008. ― Vol. 112. ― P. 10692‒10699.

64. Bonard, J. M. Purification and size-selection of carbon nanotubes / J. M. Bonard, T. Stora, J. P. Salvetat [et al.] // Adv. Mater. ― 1997. ― Vol. 9. ― P. 827‒831.

65. Islam, M. F. High weight fraction surfactant solubilization of single-wall carbon nano-tubes in water / M. F. Islam, E. Rojas, E. M. Bergey [et al.] // Nano Lett. ― 2003. ― Vol. 3. ― P. 269‒273.

66. Li, S. Role of the bile salt surfactant sodium cholate in enhancing the aqueous dispersion stability of single-walled carbon nanotubes: A molecular dynamics simulation study / S. Li, D. Daniel Blankschtein // J. Phys. Chem. ― 2010. ― Vol. 114. ― P. 15616‒15625.

67. Liu, Z. Preparation of carbon nanotube bioconjugates for biomedical applications / Z. Liu, S. M. Tabakman, Z. Chen [et al.] // Nat. Protoc. ― 2009. ― Vol. 4. ― P. 1372‒1381.

68. Wu, Y. Coating single-walled carbon nanotubes with phospholipids / Y. Wu, J. A. S. Hudson, Q. Lu [et al.] // J. Phys. Chem. B. ― 2006. ― Vol. 110. ― P. 2475‒2478.

69. Rastogia, R. Comparative study of carbon nanotube dispersion using surfactants / R. Rastogia, R. Kaushala, S. K. Tripathib [et al.] // J. Colloid Interface Sci. ― 2008. ― Vol. 328. ― P. 421‒428.

70. Zheng, M. DNA-assisted dispersion and separation of carbon nanotubes / M. Zheng, A. Jagota, E. Semke [et al.] // Nat. Mater. ― 2003. ― Vol. 2. ― P. 338‒342.

71. Tu, X. DNA sequence motifs for structure-specific recognition and separation of carbon nanotubes / X. Tu, S. Manohar, A. Jagota [et al.] // Nature. ― 2009. ― Vol. 460. ― P. 250‒253.

72. Karajanagi, S. S. Protein-assisted solubilization of single-walled carbon nanotubes / S. S. Karajanagi, H. Yang, P. Asuri [et al.] // Langmuir. ― 2006. ― Vol. 22. ― P. 1392‒1395.

73. O’Connell, M. J. Reversible water-solubilization of single-walled carbon nanotubes by polymer wrapping / M. J. O’Connell, P. B. Boul, L. M. Ericson [et al.] // Chem. Phys. Lett. ― 2001. ― Vol. 342. ― P. 265‒271.

74. Hasan, T. Stabilization and «debundling» of single-wall carbon nanotube dispersions in N-methyl-2-pyrrolidone (NMP) by polyvinylpyrrolidone (PVP) / T. Hasan, V. Scardaci, P. H. Tan [et al.] // J. Phys. Chem. C. ― 2007. ― Vol. 111. ― P. 12594‒12602.

75. Zou, J. H. Dispersion of pristine carbon nanotubes using conjugated block copolymers / J. H. Zou, L. W. Liu, H. Chen [et al.] // Adv. Mater. ― 2008. ― Vol. 20. ― P. 2055‒2060.

76. Christian, E. Interactions in single wall carbon nanotubes/pyrene/porphyrin nanohybrids / E. Christian, G. M. A. Rahman, N. Jux [et al.] // J. Am. Chem. Soc. ― 2006. ― Vol. 128. ― P. 11222‒11231.

77. Nakashima, N. Water-soluble single-walled carbon nanotubes via noncovalent sidewall-functionalization with a pyrene-carrying ammonium ion / N. Nakashima, Y. Tomonari, H. Murakami // Chem. Lett. ― 2002. ― Vol. 31. ― P. 638, 639.

78. Ji, Y. Polysiloxane surfactants for the dispersion of carbon nanotubes in non-polar organic solvents / Y. Ji, Y. Y. Huang, A. R. Tajbakhsh [et al.] // Langmuir. ― 2009. ― Vol. 25. ― P. 12325‒12331.

79. Chen, J. Noncovalent engineering of carbon nanotube surfaces by rigid, functional conjugated polymers / J. Chen, H. Liu, W. A. Weimer [et al.] // J. Am. Chem. Soc. ― 2002. ― Vol. 124. ― P. 9034‒9035.

80. Bala´zsi, C. Development of CNT/Si3N4 composites with improved mechanical and electrical properties / C. Bala´zsi, B. Fe´nyi, N. Hegman [et al.] // Composites. Part B: Engineering. ― 2006. ― Vol. 37. ― P. 418‒424.

81. Inam, F. Electrically conductive alumina–carbon nanocomposites prepared by spark plasma sintering / F. Inam, H. Yan, D. D. Jayaseelan [et al.] // J. Eur. Ceram. Soc. ― 2010. ― Vol. 30. ― P. 153‒157.

82. Huang, Y. Y. Strength of nanotubes, filaments, and nanowires from sonication-induced scission / Y. Y. Huang, T. P. J. Knowles, E. M. Terentjev // Adv. Mater. ― 2009. ― Vol. 21. ― P. 3945‒3948.

83. Huang, Y. Y. Dispersion of carbon nanotubes: mixing, sonication, stabilization, and composite properties / Y. Y. Huang, E. M. Terentjev // Polymers. ― 2012. ― Vol. 4. ― P. 275‒295.

84. Cui, S. Characterization of multiwall carbon nanotubes and influence of surfactant in the nanocomposite processing / S. Cui, R. Caneta, A. Derrea [et al.] // Carbon. ― 2003. ― Vol. 41. ― P. 797‒809.

85. Zhang, Q. Low percolation threshold in single-walled carbon nanotube/high density polyethylene composites prepared by melt processing technique / Q. Zhang, S. Rastogi, D. Chen [et al.] // Carbon. ― 2006. ― Vol. 44. ― P. 778‒785.

86. Hirsch, A. Functionalization of carbon nanotubes / A. Hirsch, O. Vostrowsky // Top. Curr. Chem. ― 2005. ― Vol. 245. ― P. 193‒237.

87. Ruelle, B. Surface treatment of carbon nanotubes using plasma technology / B. Ruelle, C. Bittencourt, P. Dubois. ― P. 474‒505. In Banerjee R., Manna I. Ceramic nanocomposites. Woodhead : Oxford, Cambridge, Philadelphia, New Delhi. 2013. ― 596 p.

88. Hirsch A. Functionalization of single-walled carbon nanotubes / A. Hirsch // Angew. Chem. Int. Ed. ― 2002. ― Vol. 41. ― P. 1853‒1859.

89. Liu, P. Modifications of carbon nanotubes with polymers / P. Liu // Eur. Polym. J. ― 2005. ― Vol. 41. ― P. 2693‒2703.

90. Bonduel, D. Supported coordination polymerization: a unique way to potent polyolefin carbon nanotube nanocomposites / D. Bonduel, M. Mainil, M. Alexandre [et al.] // Chem. Commun. ― 2005. ― P. 781‒783.

91. Thostenson, E. Nanocomposites in context / E. Thostenson, C. Li, T. W. Chou // Compos. Sci. Technol. ― 2005. ― Vol. 65. ― P. 491‒516.

92. Fu, K. Defunctionalization of functionalized carbon nanotubes / K. Fu, W. Huang, Y. Lin [et al.] // Nano Lett. ― 2001. ― Vol. 1, № 8. ― P. 439‒441.