The synthesis of hydrophobic soot surface and its modification by surface active substances
Abstract
Hydrophobic soot surface in the propane–oxygen flame on silicon, and nickel substrates was synthesized. With the application of an electric field superhydrophobic surface with soot wetting angle over 1700 is obtained. The modifying effect on its surface–active– substances of different nature was investigated: shows the inversion of hydrophobicity of carbon surface in the presence of surface–active–substances.
References
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2. Sen S, Puri IK. Flame synthesis of carbon nanofibers and nanofiber composites containing encapsulated metal particles. Nanotechnology. 2004;15(3):264 – 8. https://doi.org/10.1088/0957–4484/15/3/005
3. Levesque A, Binh VT, Semet V, Guillot D, Fillit RY, Brookes MD, et al. Mono disperse carbon nanopearls in a foam–like arrangement: a new carbon nano–compound for cold cathodes. Thin Solid Films 2004;464–465: 308 – 14 https://doi.org/10.1016/j.tsf.2004.06.012
4. Гельфман М.И., Ковалевич О.В., Юстратов В.П. Коллоидная химия.С.–Пб.: Лань. 2008. –336 с.
5. Ferrari V., Ravera F., Liggieri L. Wetting of single and mixed surfactant solutions on superhydrophobic surfaces. Journal of Adhesion Science and Technology.2009.V.10. P.1–10. https://doi.org/10.1163/156856108x370091
Published
2011-03-30
How to Cite
Nazhipkyzy, M., Lesbaev, B., Mansurov, Z., & Tazhibayeva, S. (2011). The synthesis of hydrophobic soot surface and its modification by surface active substances. Chemical Bulletin of Kazakh National University, 61(1), 172-178. Retrieved from https://bulletin.chemistry.kz/index.php/kaznu/article/view/883
Section
Other Papers
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