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Introduction and Industrial Applications Nano Oleophobic Coating
Current Issue
Volume 4, 2018
Issue 2 (March)
Pages: 24-28   |   Vol. 4, No. 2, March 2018   |   Follow on         
Paper in PDF Downloads: 179   Since Jun. 5, 2018 Views: 1142   Since Jun. 5, 2018
Authors
[1]
Pouresmaeily Seyed Mohammad, Department of Chemistry & Chemical engineering, Malek-e-Ashtar University of Technology, Tehran, Iran.
[2]
Bayaz Parisa, Department of Chemistry, Imam Khomeini International University, Qazvin, Iran.
[3]
Hadavand Shirkavand Behzad, Institute for Color Science & Technology, Tehran, Iran.
[4]
Golamreza Rezaei Behbehani, Department of Chemistry, Imam Khomeini International University, Qazvin, Iran.
Abstract
Surface of accessories around us at risk of infection of contacts or deposition of liquids, fat, dust and keep them clean is time-consuming and expensive. Fat pollution is one of the most serious challenges among the manufactures of home appliances and electronics [1]. On the other hand, cleaning the saturated fat frequently requires using chemical detergents that are harmful to the environment. So using oleophobic coatings on the surfaces in addition to reducing time and costs helps environment [2-4].
Keywords
Nano Oleophobic Coating, Applications, Review
Reference
[1]
Gau, H. Hemminghaus, S. Lenz, P. Oleowsky, R. (1999), Liquid Morphologies on Structured Surfaces: From Microchannels to MicrochipS, science. 46. 283.5398. DOI: 10.1126.
[2]
Steele, A. Bayer. I and Loth. E. (2009), Inherently Superoleophobic Nanocomposite Coatings by Spray Atomization, The Journal of American Chemical Society, 9, 1-4.
[3]
Yan. H, Kurogi. K, Tsujii. K. (2006), High oil-repellent poly (alkylpyrrole) films coated with fluorinated alkylsilane by a facile way, The Journal of American Chemical Society, 1. 501-505.
[4]
Darmanin, T and Guittard, F. (2014), Enhancement of the Superoleophobic Properties of Fluorinated PEDOP Using Polar Glycol Spacers, The Journal of Physical Chemistry, 118, 26912−26920.
[5]
Tuteja, A and et (2007), Designing Superoleophobic Surfaces, Science 318, 1618. DOI: 10.1126.
[6]
Zhou, X. Hong, En, L. Renbi, B. (2013), A novel membrane showing both hydrophilic and oleophobic surface and its non-fouling performance for potential water treatment applications, The Journal of membrane science, 436: 47–56.
[7]
Howarter, J. (2008), Hydrophobic-oleophobic stimuli-responsive materials and surfaces, Thesis (Ph.D.), Purdue University, 70-09. B 5535; 123 p.
[8]
Garcia, N.; Benito, E.; Tiemblo, P.; Hasan, M. M. B.; Synytska, A.; Stamm, M. Chemically guidedtopography in alkylsilane- and oligosiloxane-modified silica nanoparticle coatings: From very hydrophobic surfaces to “pearl” bouncing droplets. Soft Matter 2010, 6, 4768–4776.
[9]
Quéré, D. Non-sticking drops. Reports on Progress in Physics 2005, 68, 2495–2532.
[10]
Cengiz, U. Yildirim Erbil, H. (2014), Superhydrophobic perfluoropolymer surfaces having heterogeneousroughness created by dip-coating from solutions containinga nonsolvent, Applied Surface Science, 292. 591–597.
[11]
Taurino, R.; Fabbri, E.; Messori, M.; Pilati, F.; Pospiech, D.; Synytska, A. Facile preparation of superhydrophobic coatings by sol-gel processes. J. Colloid Interface Sci. 2008, 325, 149–156.
[12]
James, K. FerriKathleen, J. Stebe, U. (2000), which surfactants reduce surface tension faster? A scaling argument for diffusion-controlled adsorption. Advances in Colloid and Interface Science. 85. 61-97.
[13]
Feng, L. Zhang, Z and et (2004), superhydrophobic and super-oleophilic coating mesh film for the separation of oil and water, The Journal of Angewandte Chemie. 116 (15). 2046-2048.
[14]
Zhang, J. Huang, W. Han, Y.(2006), A composite polymer film with both superhydrophobicity and superoleophilicity, The Journal of Macromolecular Rapid Communications 27 (10). 804–808.
[15]
TU, C. W and et (2007), Fabrication of superhydrophobic and superoleophilic polystyrene surfaces by a facile one-step method The Journal of Macromolecular Rapid Communications. 28 (22), 2262–2266.
[16]
Cassie, A. B. D.; Baxter, S. Wettability of porous surfaces. Trans. Faraday Soc. 1944, 40, 546–551.
[17]
Xu Wu and et (2015), Preparation of superamphiphobic polymer-based coatings via spray- and dip-coating strategies, Progress in Organic Coatings. 90. 463–471.
[18]
Zhang, J and Seeger, S. (2011), Superoleophobic Coatings with Ultralow Sliding Angles Based on Silicone Nanofilaments, The Journal of Angewandte Chemie. 50 (29). 6652–6656.
[19]
Lakshmi, R. V and et (2012), Fabrication of superhydrophobic and oleophobic sol–gel nanocomposite coating, Surface & Coatings Technology. 206. 3888–3894, doi: 10.1016/j.
[20]
Hirsh, H., Coen, M. H., Mozer, M. C., Hasha, R. and Flanagan, J. L, “Room service, AI-style,” IEEE intelligent systems, 14 (2). 8-19. Jul. 2002. T. Eckes, The Developmental Social Psychology of Gender, Lawrence Erlbaum, 2000. [E-book] Available: netLibrary e-book.
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