How to cite this paper
Obeid, A., Al-Shuja’a, O., El-Shekeil, Y., Aqeel, S., Salit, M & Al-Washali, Z. (2018). New strategy for chemically attachment of Amide group on Multi-walled Carbon Nanotubes surfaces: synthesis, characterization and study of DC electrical conductivity.Current Chemistry Letters, 7(1), 17-26.
Refrences
1. Bardash L. (2011) Synthesis and investigation of nanostructured polymer composites based on heterocyclic esters and carbon nanotubes (Doctoral dissertation, Université Claude Bernard-Lyon I).
2. Breuer O., and Sundararaj U. (2004) Big returns from small fibers: A review of polymer/carbon nanotube composites. Polym Composite, 25 (6) 630-645.
3. Ajayan P. M., Charlier J. C., and Rinzler A. G. (1999) Carbon nanotubes: From macromolecules to nanotechnology. Proceeding of the National Academy of the Sciences, 96 (25) 14199-14200.
4. Ratner M., and Ratner D. (2003) Nanotechnology: A gentle introduction to the next big idea. Upper Saddle River, NJ: Prentice Hall Professional.
5. Taniguchi N. (1974) On the basic concept of nano-technology. Proceedings of the International Conference on Production Engineering, Tokyo 1974 Part II Japan Society of Precision Engineering, 18-23.
6. Harris P.J. (1999) Carbon nanotubes and related structures. Cambridge University press, 16-24.
7. Biercuk M. J., Llaguno M. C., Radosavljevic M., Hyun J. K., Johnson A. T., and Fischer J. E. (2002) Carbon nanotube composites for thermal management. Appl Phys Lett, 80 (15) 2767-2769.
8. Krishnamoorti R., and Vaia R. (2001) Polymer nanocomposites: Synthesis, characterization and modeling, Ed, ACS Publications.
9. Wei B. Q., Vajtai R., and Ajayan P. M. (2001) Reliability and current carrying capacity of carbon nanotubes. Appl Phys Lett, 79 (8) 1172-1174.
10. Dürkop T., Kim B. M., and Fuhrer M. S. (2004) Properties and applications of high-mobility semiconducting nanotubes. J Phys-Condens Mat, 16 (18) R553-R580.
11. Santhanam V., and Andres R. P. (2004) Metal nanoparticles and self-assembly into electronic nanostructures, Dekker Encyclopedia of Nanoscience and Nanotechnology, 3, 4014.
12. Kroto H. W., Heath J. R., O'Brien S. C., Curl R. F., and Smalley R. E. (1985) C 60: Buckminsterfullerene. Nature, 318 (6042) 162-163.
13. Meyyappan M. (2004) Carbon nanotubes: Science and applications , Ed, CRC press, 28.
14. Ajayan P. M., Stephan O., Colliex C., and Trauth D. (1994) Aligned carbon nanotube arrays formed by cutting a polymer resin-nanotube composite. Science-AAAS-Weekly Paper Edition, 265 (5176) 1212-1214.
15. Dresselhaus M. S., Dresselhaus G., and Eklund P. C. (1996) Science of Fullerenes and Carbon Nanotubes: their properties and applications, Springer US, New York, Second edition, 922.
16. Bianco S., Ferrario P., Quaglio M., Castagna R., and Pirri C. F. (2011) Nanocomposites based on elastomeric matrix filled with carbon nanotubes for biological applications. In Carbon nanotubes-from research to applications. InTech.
17. Chen J., Rao A. M., Lyuksyutov S., Itkis M. E., Hamon M. A., Hu H., Cohn R. W., Eklund P. C., Colbert D. T., Smalley R. E., and Haddon R. C. (2011) Dissolution of Full-Length Single-Walled Carbon Nanotubes. J Phys Chem B, 105 (13) 2525-2528.
18. Qu L., Veca L. M., Lin Y., Kitaygorodskiy A., Chen B., McCall A. M., Connell J. W., and Sun Y. P. (2005) Soluble Nylon-Functionalized Carbon Nanotubes from Anionic Ring-Opening Polymerization from Nanotube Surface. Macromolecules, 38 (24) 10328-10331.
19. Gao J., Itkis M. E., Yu A., Bekyarova E., Zhao B., and Haddon R. C. (2005) Continuous Spinning of a Single-Walled Carbon Nanotube-Nylon Composite Fiber. J Am Chem Soc, 127 (11) 3847-3854.
20. Yang M., Gao Y., Li H., and Adronov A. (2007) Functionalization of multiwalled carbon nanotubes with polyamide 6 by anionic ring-opening polymerization. Carbon, 45 (12) 2327-2333.
21. Yan, D., and Yang, G. (2009) Synthesis and properties of homogeneously dispersed polyamide 6/MWNTs nanocomposites via simultaneous in situ anionic ring-opening polymerization and compatibilization. J Appl Polym Sci, 112 (6) 3620-3626.
22. Yıldrım A., and Seçkin T. (2014) In Situ Preparation of Polyether Amine Functionalized MWCNT Nanofiller as Reinforcing Agents. Adv Mater Sci Eng, 2014, http://dx.doi.org/10.1155/2014/356920.
23. Damian C. M., Pandele M. A., and Iovu H. (2010) Ethylenediamine functionalization effect on the thermo-mechanical properties of epoxy nanocomposites reinforced with multiwall carbon nanotubes. University Politehnica of Bucharest, Scientific Bulletin Series B: Chemistry and Materials Science, 72 (3) 163-174.
24. Al-Shuja'a O., Obeid A., and El-Shekeil A. (2011) Spectral, Thermal and DC Electrical Conductivity of Charge Transfer Complex Formed Between 5,7-Dimethyl-1-oxo-2-phenyl-1H-pyrazolo [1,2-α]pyrazol-4-ium-3-olate and Iodine. J Macromol Sci Pure, 48 (5) 355-364.
25. Obeid A., Al-Shuja'a O., Aqeel S., Al-Aghbari S., and El-Shekeil A. (2012) DC Electrical Conductivity of Some Oligoazomethines Doped with Nanotubes J Macromol Sci Pure, 49 (2) 116-123.
26. Al-Shuja’a O., Obeid A., El-Shekeil Y., Hashim M., and Al-Washali Z. (2017) New strategy for chemically attachment of imine group on multi-walled carbon nanotubes surfaces: Synthesis, characterization and study of dc electrical conductivity. J Mater Sci Chem Eng, 5 (02), 11-21.
27. Li Z. M., Li S. N., Yang M. B., and Huang R. (2005) A novel approach to preparing carbon nanotube reinforced thermoplastic polymer composites. Carbon, 43 (11) 2413-2416.
28. Moniruzzaman M., and Winey K. I. (2006) Polymer Nanocomposites Containing Carbon Nanotubes. Macromolecules, 39 (16) 5194-5205.
2. Breuer O., and Sundararaj U. (2004) Big returns from small fibers: A review of polymer/carbon nanotube composites. Polym Composite, 25 (6) 630-645.
3. Ajayan P. M., Charlier J. C., and Rinzler A. G. (1999) Carbon nanotubes: From macromolecules to nanotechnology. Proceeding of the National Academy of the Sciences, 96 (25) 14199-14200.
4. Ratner M., and Ratner D. (2003) Nanotechnology: A gentle introduction to the next big idea. Upper Saddle River, NJ: Prentice Hall Professional.
5. Taniguchi N. (1974) On the basic concept of nano-technology. Proceedings of the International Conference on Production Engineering, Tokyo 1974 Part II Japan Society of Precision Engineering, 18-23.
6. Harris P.J. (1999) Carbon nanotubes and related structures. Cambridge University press, 16-24.
7. Biercuk M. J., Llaguno M. C., Radosavljevic M., Hyun J. K., Johnson A. T., and Fischer J. E. (2002) Carbon nanotube composites for thermal management. Appl Phys Lett, 80 (15) 2767-2769.
8. Krishnamoorti R., and Vaia R. (2001) Polymer nanocomposites: Synthesis, characterization and modeling, Ed, ACS Publications.
9. Wei B. Q., Vajtai R., and Ajayan P. M. (2001) Reliability and current carrying capacity of carbon nanotubes. Appl Phys Lett, 79 (8) 1172-1174.
10. Dürkop T., Kim B. M., and Fuhrer M. S. (2004) Properties and applications of high-mobility semiconducting nanotubes. J Phys-Condens Mat, 16 (18) R553-R580.
11. Santhanam V., and Andres R. P. (2004) Metal nanoparticles and self-assembly into electronic nanostructures, Dekker Encyclopedia of Nanoscience and Nanotechnology, 3, 4014.
12. Kroto H. W., Heath J. R., O'Brien S. C., Curl R. F., and Smalley R. E. (1985) C 60: Buckminsterfullerene. Nature, 318 (6042) 162-163.
13. Meyyappan M. (2004) Carbon nanotubes: Science and applications , Ed, CRC press, 28.
14. Ajayan P. M., Stephan O., Colliex C., and Trauth D. (1994) Aligned carbon nanotube arrays formed by cutting a polymer resin-nanotube composite. Science-AAAS-Weekly Paper Edition, 265 (5176) 1212-1214.
15. Dresselhaus M. S., Dresselhaus G., and Eklund P. C. (1996) Science of Fullerenes and Carbon Nanotubes: their properties and applications, Springer US, New York, Second edition, 922.
16. Bianco S., Ferrario P., Quaglio M., Castagna R., and Pirri C. F. (2011) Nanocomposites based on elastomeric matrix filled with carbon nanotubes for biological applications. In Carbon nanotubes-from research to applications. InTech.
17. Chen J., Rao A. M., Lyuksyutov S., Itkis M. E., Hamon M. A., Hu H., Cohn R. W., Eklund P. C., Colbert D. T., Smalley R. E., and Haddon R. C. (2011) Dissolution of Full-Length Single-Walled Carbon Nanotubes. J Phys Chem B, 105 (13) 2525-2528.
18. Qu L., Veca L. M., Lin Y., Kitaygorodskiy A., Chen B., McCall A. M., Connell J. W., and Sun Y. P. (2005) Soluble Nylon-Functionalized Carbon Nanotubes from Anionic Ring-Opening Polymerization from Nanotube Surface. Macromolecules, 38 (24) 10328-10331.
19. Gao J., Itkis M. E., Yu A., Bekyarova E., Zhao B., and Haddon R. C. (2005) Continuous Spinning of a Single-Walled Carbon Nanotube-Nylon Composite Fiber. J Am Chem Soc, 127 (11) 3847-3854.
20. Yang M., Gao Y., Li H., and Adronov A. (2007) Functionalization of multiwalled carbon nanotubes with polyamide 6 by anionic ring-opening polymerization. Carbon, 45 (12) 2327-2333.
21. Yan, D., and Yang, G. (2009) Synthesis and properties of homogeneously dispersed polyamide 6/MWNTs nanocomposites via simultaneous in situ anionic ring-opening polymerization and compatibilization. J Appl Polym Sci, 112 (6) 3620-3626.
22. Yıldrım A., and Seçkin T. (2014) In Situ Preparation of Polyether Amine Functionalized MWCNT Nanofiller as Reinforcing Agents. Adv Mater Sci Eng, 2014, http://dx.doi.org/10.1155/2014/356920.
23. Damian C. M., Pandele M. A., and Iovu H. (2010) Ethylenediamine functionalization effect on the thermo-mechanical properties of epoxy nanocomposites reinforced with multiwall carbon nanotubes. University Politehnica of Bucharest, Scientific Bulletin Series B: Chemistry and Materials Science, 72 (3) 163-174.
24. Al-Shuja'a O., Obeid A., and El-Shekeil A. (2011) Spectral, Thermal and DC Electrical Conductivity of Charge Transfer Complex Formed Between 5,7-Dimethyl-1-oxo-2-phenyl-1H-pyrazolo [1,2-α]pyrazol-4-ium-3-olate and Iodine. J Macromol Sci Pure, 48 (5) 355-364.
25. Obeid A., Al-Shuja'a O., Aqeel S., Al-Aghbari S., and El-Shekeil A. (2012) DC Electrical Conductivity of Some Oligoazomethines Doped with Nanotubes J Macromol Sci Pure, 49 (2) 116-123.
26. Al-Shuja’a O., Obeid A., El-Shekeil Y., Hashim M., and Al-Washali Z. (2017) New strategy for chemically attachment of imine group on multi-walled carbon nanotubes surfaces: Synthesis, characterization and study of dc electrical conductivity. J Mater Sci Chem Eng, 5 (02), 11-21.
27. Li Z. M., Li S. N., Yang M. B., and Huang R. (2005) A novel approach to preparing carbon nanotube reinforced thermoplastic polymer composites. Carbon, 43 (11) 2413-2416.
28. Moniruzzaman M., and Winey K. I. (2006) Polymer Nanocomposites Containing Carbon Nanotubes. Macromolecules, 39 (16) 5194-5205.