Study of Stability and Dispersibility of Oxidized Multiwall Carbon Nanotube and Characterization with Analytical Methods for Bioapplication
الموضوعات :Kopaieemalek S. Yusof A.M., Abdul Rashid N.A, Abbasi M.J., and Kopaiee Malek T. 1
1 -
الکلمات المفتاحية: Oxidation, Carbon Nanotube, nanotechnology, Dispersibility,
ملخص المقالة :
Nanotechnology is the study of manipulating matter on an atomic and molecular scale. Generally, nanotechnology deals with developing materials, devices, or other structures possessing at least one dimension size from 1 to 100 nanometers. Carbon nanotubes have great potentials for novel applications in industry, drug delivery system and many other uses. In this work after purification, multiwall carbon nanotube was functionalized in acids by liquid phase oxidation method for drug delivery system. The structural and chemical changes after carboxylation of MWNTs improved the solubility and dispersibility of the carboxylated MWNTs in water. Fourier transformed infrared spectroscopy, and transmission electron microscopies were carried out for characterization of these methods of MWCNTs functionalization.
- Balasubramanian. K. and M. Burghard, 2004ï¼ÅChemically Functionalized Carbon Nanotubes, small, Vol. 1ï¼Åpp.180-192.
- Bianco A., K. Kostarelos and M. Prato, 2005ï¼ÅApplications of carbon nanotubes in drug delivery. Current Opinion in Chemical Biologyï¼Åpp.674âââ679.
- Biro L.P., ôN.Q. Khanh, Z. Veôrtesy, Z.E. Horvaôth, Z. Osvaôth , A. Kooôs, J. Gyulai, A. Kocsonya, Z. Koônya, X.B. Zhang, G. Van Tendeloo, A. Fonseca and J.B. Nagy, 2002ï¼ÅCatalyst traces and other impurities in chemically purified carbon. Materials Science and Engineeringï¼Åpp.9-13.
- Chung C.-L, K. Nguyen, S. Lyonnais, S. Streiff , S. Campidelli , L. Goux-Capes, J.-P Bourgoin , A.Filoramoï¼ÅDNA Linked To Single-Wall Carbon Nanotubes: Covalent Versus Non-Covalent Approach. International Symposium on DNA-Based Nanodevicesï¼Åpp.129-139.
- Datsyuka V., M. Kalyvaa, K. Papagelisb, J. Partheniosa, D. Tasisb, A. Siokoua, I. Kallitsisa and C. Galiotisa, 2008. Chemical oxidation of multiwalled carbon nanotubes. Carbonpp. 833âââ840.
- Foldvari M. And M. Bagonluri, 2008ï¼ÅCarbon nanotubes as functional excipients for nanomedicines Nanomedicine: Nanotechnology, Biology, and Medicineï¼Åpp.173âââ182.
- Future directions in Carbon Science. Dresselhaus M.S., 1997, Carbon Nanotubes: From Fundamental Nanoscale Objects Towards Functional Nanocomposites and Applications. Annu. Rev. Mater. Sciï¼Åpp.1âââ34.
- Haipeng L., N. Zhao, H. Chunnian, Ch. Shi, X. Du, J. Li, 2008ï¼ÅMaterials Science and Engineeringï¼Åpp.355-359.
- Haipeng L., N. Zhaoa, Ch. Hea, Ch. Shi, X. Dua and J. Li, 2007. Thermogravimetric analysis and TEM characterization of the oxidation and defect sites of carbon nanotubes synthesized by CVD of methane, Materials Science and Engineering ,pp. 355-359
- Heisterveraneves E., S. Ravi P. Silva, Johnjoe McFadden and Helen M. Coley2011ï¼ÅCarbon Nanotubes Loaded with Anticancer Drugs: A Platform for Multimodal Cancer Treatment.Carbon Nanostructuresï¼Åpp.223-245.
- Iijima S., 1991ï¼ÅHelical microtubules of graphitic carbon.Natureï¼Åpp.56 - 58.
- LiSaiJinXiao D. and Ch. Huang, 2010. A novel drug delivery system.ï¼ÅPharmacia and biological functionalities of nutrient broth dispersed multi-walled carbon nanotubes SCIENCE CHINA Chemistryï¼ÅVol. 53ï¼Åpp.612-618
- Liu J., G. Andrew Rinzler, D. Hongjie, H. Jason Hafner, R. Kelley Bradley, Peter J. Boul, A. Lu, T. Iverson, K. Shelimov, Ch. B. Huffman, F. Rodriguez-Macias, Y. S. Shon, T. Randall Lee, D. T. Colbert, R. E. Smalley, 1998. Fulleren pipe,science,vol 280.
- Martisa P., B. R. Venugopala, J. Delhallea and Z. Mekhalif, 2011ï¼ÅSelective decoration of nickel and nickel oxide nanocrystals on multiwalled carbon nanotubes. Journal of Solid State Chemistryï¼Åpp.1245-1250.
- Masera W., M. Benito, E. Muñoz and M. Teresa MartÃÂnez, 2008ï¼ÅFunctionalized Nanoscale Materialsï¼Åpp.101-119.
- Mohd A. Y., N. Ahmad Nizam and N. Aini Abd Rashid, 2010ï¼ÅHydrothermal conversion of rice husk ash.porous materï¼Åpp. 39âââ47.
- Nirajandjohn T and W. Yeow, 2005ï¼ÅCarbon Nanotubes for Biomedical Applications.IEEE Transactions on Nanobioscience, Vol. 4ï¼Åpp.180-195.
- Raymond .M, "Carbon Nanotubes: Potential Benefits and Risks of Nanotechnology in Nuclear Medicine." the journal of nuclear medicine 48 (2007): 1039-1042.
- Russier J., C. Ménard-Moyon, E. Venturelli, E. Gravel, G. Marcolongo, M. Meneghetti, E. Doris and A. Bianco, 2011ï¼ÅOxidative biodegradation of single- and multi-walled carbon nanotubes. Thermogravimetric analysis and TEM characterization of the oxidation and defect sites of carbon nanotubes synthesized by CVD of methane.Nanoscaleï¼Åpp.893âââ896.
- Sim R. B., R. Klingeler, 2011. Carbon nanotubes for Biomedical applications, p 34, 132, 260
- Sungchul L., Zh. Zhanga, X. Wanga, L. D. Pfefferlea and G. L. Haller, 2011. Characterization of multi-walled carbon nanotubes catalyst supports by point of zero charge. Catalysis Todayï¼ÅVol. 164ï¼Åpp.68-73.
- Vivek S., M. Thakare, D. Anasmita, K. Amitjain, S. Patil and S. Jain, 2010ï¼ÅCarbon nanotubes in cancer theragnosis. Nanomedicineï¼Åpp.1277-1301.
- Wanga Sh., R. Liangb, B. Wangb and Ch. Zhang, 2008ï¼ÅLoad-transfer in functionalized carbon nanotubes/polymer composites. Chemical Physics Lettersï¼ÅVol. 457ï¼Åpp.371-371
- Yang W., P. Thordarson, J. Justin Gooding, S. P Ringer and F. Braet, 2007ï¼ÅCarbon nanotubes for biological and biomedical applications. Nanotechnology, vol:18 .
- Zdenko à  ., A. Christoforos, B. Krontiras, N. Stavroula and C. Galiotis, 2009ï¼ÅEffect of oxidation treatment of multiwalled carbon
- nanotubes on the mechanical and electrical properties of their epoxy composites. Applied Science and Manufacturingï¼ÅVol. 40ï¼Åpp.778-783.
- Zhaowei W., M. D. Shirley, T. Steven, M. Raymond, L.D. Whitby and V. Sergey Mikhalovsky, 2009ï¼ÅThe surface acidity of acid oxidised multi-walled carbon nanotubes and the influence of in-situ generated fulvic acids on their stability in aqueous dispersions. CARBON, pp.73 âââ79
