مروری بر پوشش‌های خودترمیم‌شونده حاوی نانوحامل‌های لوله‌ای هالوزیت

نوع مقاله : مقاله مروری

نویسندگان

1 دانشجوی کارشناسی ارشد، گروه پوشش‌های سطح وخوردگی، پژوهشگاه رنگ

2 استادیار، گروه پوشش‌های سطح وخوردگی، پژوهشگاه رنگ

3 استادیار، گروه رنگ‌های سرامیکی و لعاب، پژوهشگاه رنگ

چکیده

روش‌‌‌های متعددی برای کاهش نرخ خوردگی در نظر گرفته شده است. در میان تمام این روش‌‌‌ها، پوشش محافظ، نقش به‌‌‌سزایی در حفاظت از خوردگی دارد. بازده‌‌‌ی پوشش معمولا برای کاربرد در محیط‌‌‌های خورنده و شدید کافی نیست. افزودن بازدارنده‌‌‌های خوردگی در ترکیب با پوشش‌‌‌های محافظتی، حفاظت از فلز را افزایش می‌‌‌دهد. مشکلات ترکیب مستقیم بازدارنده‌‌‌های خوردگی با پوشش، منجر به استفاده از فناوری‌‌‌هایی می‌‌‌شود که از یک حامل (ظرف یا کپسول) برای بسته‌‌‌شدن بازدارنده استفاده می‌‌‌شود. نانولوله‌‌‌های هالوزیت دارای مزایای متعددی هستند و به عنوان یک نانو حامل استفاده می‌‌‌شوند. این تحقیق، توسعه‌‌‌ نانولوله‌‌‌های هالوزیت را به عنوان یک نانوحامل برای استفاده در پوشش‌‌‌های خودترمیم‌‌‌شونده مورد بررسی قرار می‌‌‌دهند.
 

کلیدواژه‌ها

موضوعات


عنوان مقاله [English]

Review of Self-Healing Coatings Including Halloysite Tubes as Nanocontainer

نویسندگان [English]

  • Reza Mahmudi 1
  • Pooneh Kardar 2
  • Amir Masoud Arabi 3
  • Reza Amini 2
1 Surface Coating and Corrosion Department, Institute for Color Research and Technology
2 Surface Coating and Corrosion Department, Institute for Color Research and Technology
3 Department of Inorganic Pigments and Glazes, Institute for Color Research and Technology
چکیده [English]

Numerous approaches are in practice to mitigate corrosion. Among all of these approaches, protective coating plays an effective/promising role in corrosion protection. The coating efficiency is generally not sufficient for applications in aggressive and extreme environments. Addition/embedment of corrosion inhibitors in combination with protective coatings enhances the metal protection. Ineffective methods of direct blending of corrosion inhibitors with paint leads to a technology that uses a carrier (container or capsule) to encapsulate the inhibitor. Halloysite nanotubes have many advantages and are successfully identified/reported as a leading nanocontainer. This study reviews the recent development of halloysite nanotubes as a nanocontainer for smart coating applications.
 

کلیدواژه‌ها [English]

  • Halloysite Nanotube
  • Smart coating
  • Nanocontainer
  • Self-healing coating
  1. E. Abdullayev, V. Abbasov, A. Tursunbayeva, V. Portnov, H. Ibrahimov,G. Mukhtarova, Y. Lvov, "Self-healing coatings based on halloysite clay polymer composites for protection of copper alloys", ACS Appl. Mater. Interfaces, 5, 4464–4471, 2013.
  2. Y. M. Lvov, D. G. Shchukin, H. Mohwald, R. R. Price,"Halloysite clay nanotubes for controlled release of protective agents", ACS Appl. Mater. Interfaces, 2, 814–820, 2008.
  3. H. Wei, Y. Wang, G. Jiang, N. Z. Shen, D. Jiang, X. Zhang, X. Yan, J. Zhu, Q. Wang, L. Shao, H. Lin, S. Wei, Z. Guo, "Advanced micro/nanocapsules for self-healing smart anticorrosion coatings", J. Mater. Chem. A, 3, 469–480, 2015.
  4. M. Samadzadeh, S. H. Boura, M.P. Peikari, S. M. Kasiriha, A. Ashrafi, M. Samadzadeh, S. H. Boura, M. P. Peikari, S.M. Kasiriha, A. Ashrafi, "A review on self-healing coatings based on micro/nanocapsules", Prog. Org. Coat. 68, 159–164, 2010.
  5. D. Shchukin, H. Möhwald, "A coat of many functions", Mater. Sci. 341, 1458–1459, 2013.
  6. K. Chung, S. Lee, M. Park, P. Yoo, Y. Hong, "Preparation and characterization of microcapsule-containing self-healing asphalt", J. Ind. Eng. Chem. 29, 330–337, 2015.
  7. B. J. Blaiszik, S. L. B. Kramer, S.C. Olugebefola, J.S. Moore, N.R. Sottos, S.R. White, "Self-healing polymers and composites", Annu. Rev. Mater. Res. 40 ,179–211, 2010.
  8. P.kardar, "The effect of polyurethane-isophorone microcapsules on self-healing properties of an automotive clearcoat", Pig. Res. Technol. 45, 73-78,  2016
  9. R. Meirowitz, "Microencapsulation technology for coating and lamination of textiles", Smart Text. Coat. Laminates, 3 ,125–154, 2010.
  10. S. H. Sonawane, B.M. Teo, A. Brotchie, F. Grieser, M. Ashokkumar,"Sonochemical synthesis of ZnO encapsulated functional nanolatex and its anticorrosive performance", Ind. Eng. Chem. Res. 49, 2200–2205, 2010.
  11. H. Wei, Y. Wang, G. Jiang, N.Z. Shen, D. Jiang, X. Zhang, X. Yan, J. Zhu, Q. Wang, L. Shao, H. Lin, S. Wei, Z. Guo, "Advanced micro/nanocapsules for self-healing smart anticorrosion coatings", J. Mater. Chem. A, 3, 469–480, 2015.
  12. S. Khoee, S. H. Payandeh, P. Jafarzadeh, "Size and core content optimization of epoxy nanocapsules by response surface methodology for use in self-healing coatings", Smart Mater. Struct. 25, 2016.
  13. R. Meirowitz, "Microencapsulation technology for coating and lamination of textiles", Smart Text. Coat. Laminates, 3 ,125–154, 2010.
  14. C.S. Peyratout, H. Möhwald, L. Dähne, H. Mohwald, L. Dahne, "Preparation of photosensitive dye aggregates and fluorescent nanocrystals in microreaction containers", Adv. Mater. 15, 1722–1726, 2003.
  15. A. Manna, T. Imae, K. Aoi, M. Okada, "Synthesis of dendrimer-passivated noble metal nanoparticles in a polar medium: comparison of size between silver and gold particles", Chem. Mater. 3,1674–1681, 2001.
  16. A. Sunder, M. Krämer, R. Hanselmann, R. Mülhaupt, H. Frey, "Molecular nanocapsules based on amphiphilic hyperbranched polyglycerols", Angew. Chem. Int. Ed. 38, 3552–3555, 1999.
  17. X. Lu, "Preparation and characterization of micron-sized polystyrene/polysiloxanecore/shell particles", Colloid Polym. Sci. 284, 1062–1066, 2006.
  18. C.I. Zoldesi, C.A. Van Walree, A. Imhof, "Deformable hollow hybrid silica/siloxane colloids by emulsion templating", Langmuir, 4343–4352, 2006.
  19. B.A. Bhanvase, Y. Kutbuddin, R.N. Borse, N.R. Selokar, D.V. Pinjari, P.R. Gogate, S.H. Sonawane, A.B. Pandit, "Ultrasound assisted synthesis of calcium zinc phosphate pigment and its application in nanocontainer for active anticorrosion coatings", Chem. Eng. J. 231, 345–354, 2013.
  20. B.M. Teo, S.W. Prescott, M. Ashokkumar, F. Grieser, "Ultrasound initiated miniemulsion polymerization of methacrylate monomers", Ultrason. Sonochem. 15, 89–94, 2008.
  21. S. H. Sonawane, B.M. Teo, A. Brotchie, F. Grieser, M. Ashokkumar,"Sonochemical synthesis of ZnO encapsulated functional nanolatex and its anticorrosive performance", Ind. Eng. Chem. Res. 49 ,2200–2205, 2010.
  22. X. Teng, D. G. Shchukin, H. Mohwald, "Encapsulation of water-immiscible solvents in polyglutamate/polyelectrolyte nanocontainers", Adv. Funct. Mater. 17, 1273–1278, 2007.
  23. E. Joussein, S. Petit, J. Churchman, B. Theng, D. Righi, B. Delvaux, "Halloysite clay minerals–a review", Clay Miner. 40, 383–426, 2005.
  24. L. Yu, H. Wang, Y. Zhang, B. Zhang, J. Liu, E. Sci, "Recent advances in halloysite nanotube derived composites for water treatment", Environ. Sci. Nano 3, 28–44, 2016.
  25. V. Vergaro, E. Abdullayev, Y.M. Lvov, A. Zeitoun, R. Cingolani, R. Rinaldi, S. Leporatti, "Cytocompatibility and uptake of halloysite clay nanotubes", Biomacromolecules 11, 820–826, 2010.
  26. X. Lai, M. Agarwal, Y. M. Lvov, C. Pachpande, K. Varahramyan, F.A. Witzmann," Proteomic profiling of halloysite clay nanotube exposure in intestinal cell co-culture", J. Appl. Toxicol. 33, 1316–1329, 2013.
  27. G. I. Fakhrullina, F. S. Akhatova, M. Lvov, R. F. Fakhrullin,"Environmental science nano toxicity of halloysite clay nanotubes in vivo: a caenorhabditis elegans study", Environ. Sci. Nano 2, 54–59, 2015.
  28. P. Yuan, D. Tan, F. Annabi-Bergaya, "Properties and applications of halloysite nanotubes: recent research advances and future prospects", Appl. Clay Sci. 112–113, 75–93, 2015.
  29. H.A. Duarte, M.P. Lourenço, T. Heine, L. Guimarães,"Clay mineral nanotubes:stability, structure and properties", Stoichiometry and Materials Science – When Numbers Matter. 3–25, 2009.
  30. M. Liu, Z. Jia, D. Jia, C. Zhou, "Recent advance in research on halloysite nanotubespolymer nanocomposite", Prog. Polym. Sci. 39, 1498–1525, 2014.
  31. R. Kamble, M. Ghag, S. Gaikawad, B.K. Panda," Halloysite nanotubes and applications:a review", J. Adv. Sci. Res. 3, 25–29, 2012.
  32. A. B. Zhang, L. Pan, H. Y. Zhang, S. T. Liu, Y. Ye, M. S. Xia, X. G. Chen,"Effects of acid treatment on the physico-chemical and pore characteristics of halloysite", Coll. Surf. A Physicochem. Eng. Asp. 396, 182–188, DOI:10.1088/0957 -4484/23/6/065705, 2012.
  33. J. M. Falcón, T. Sawczen, I. V. Aoki, "Dodecylamine-loaded halloysite nanocontainers for active anticorrosion coatings", Front. Mater. 2, 1–13, 2015.
  34. Z. Shu, Y. Chen, J. Zhou, T. Li, D. Yu, Y. Wang, "Applied clay science nanoporouswalled silica and alumina nanotubes derived from halloysite: controllable preparation and their dye adsorption applications", Appl. Clay Sci. 113, 17–24, 2015.
  35. R. D. White, D. V. Bavykin, F.C. Walsh, "The stability of halloysite nanotubes in acidic and alkaline aqueous suspensions", Nanotechnology. 23, 2012.
  36. D. Snihirova, S. V. Lamaka, M.F. Montemor, "SMART protective ability of water based epoxy coatings loaded with CaCO3 microbeads impregnated with corrosion inhibitors applied on AA2024 substrates", Electrochim. Acta. 83, 439–447, 2012.
  37. M. L. Zheludkevich, D. G. Shchukin, K. A. Yasakau, H. Möhwald, M. G. S. Ferreira, "Anticorrosion coatings with self-healing effect based on nanocontainers impregnated with corrosion inhibitor", Chem. Mater. 19 , 402–411, 2007.
  38. W. Xing, L. Ni, P. Huo, Z. Lu, X. Liu, Y. Luo, Y. Yan, "Applied surface science preparation high photocatalytic activity of CdS/halloysite nanotubes (HNTs) nanocomposites with hydrothermal method", Appl. Surf. Sci. 259, 698–704, 2012.
  39. D. Papoulis, S. Komarneni, A. Nikolopoulou, P. Tsolis-Katagas, D. Panagiotaras, H.G. Kacandes, P. Zhang, S. Yin, T. Sato, H. Katsuki," Palygorskite- and halloysite-TiO2 nanocomposites: synthesis and photocatalytic activity", Appl. Clay Sci. 50, 118–124, 2010.
  40. X. Tang, L. Li, B. Shen, C. Wang," Halloysite-nanotubes supported FeNi alloy nanoparticles for catalytic decomposition of toxic phosphine gas into yellow phosphorus and hydrogen", Chemosphere. 91, 1368–1373, 2013.
  41. L. Wang, J. Chen, L. Ge, Z. Zhu, V. Rudolph, "Halloysite-nanotube- supported Ru nanoparticles for ammonia catalytic decomposition to produce COx-free hydrogen", Energy Fuels 25, 3408–3416, 2011.
  42. Y. Zhang, A. Tang, H. Yang, J. Ouyang, "Applied clay science applications and  interfaces ofhalloysite nanocomposites", Appl. Clay Sci. 119, 8–17, 2016.
  43. Y. Zhang, J. Ouyang, H. Yang, "Metal oxide nanoparticles deposited onto carboncoated halloysite nanotubes", Appl. Clay Sci. 95, 252–259, 2014.
  44. E. Abdullayev, K. Sakakibara, K. Okamoto, W. Wei, K. Ariga, Y. Lvov,"Natural tubule clay template synthesis of silver nanorods for antibacterial composite coating", ACS Appl. Mater. Interfaces 3, 4040–4046, 2011.
  45. E. Abdullayev, Y. Lvov, "Clay nanotubes for corrosion inhibitor encapsulation: release control with end stoppers", J. Mater. Chem. 20, 6681, 2010.
  46. E. Shchukina, D. Shchukin, D. Grigoriev, "Halloysites and mesoporous silica as inhibitor nanocontainers for feedback active powder coatings", Prog. Org. Coat. 123, 6–11, 2016.
  47. Y. Lvov, W. Wang, L. Zhang, R. Fakhrullin,"Halloysite clay nanotubes for loading and sustained release of functional", Adv. Mater. 28, 1227–1250, 2015.
  48. A. Vimalanandan, L. P. Lv, T.H. Tran, K. Landfester, D. Crespy, M. Rohwerder,"Redox-responsive self-healing for corrosion protection", Adv. Mater. 25, 6980–6984, 2013.
  49. D. G. Shchukin, H. Möhwald, B. D. G. Shchukin, H. Möhwald,"Surface-engineered nanocontainers for entrapment of corrosion inhibitors", Adv. Funct. Mater. 17, 1451–1458, 2007.
  50. D. Rawtani, Y.K. Agrawal, "Multifarious applications of halloysite nano tubes: a review", Rev. Adv. Mater. Sci. 30 ,282–295, 2012.
  51. M. Du, B. Guo, D. Jia," Newly emerging applications of halloysite nanotubes: a review", Polym. Int. 59 ,574–582, 2010.
  52. S. Manasa, A. Jyothirmayi, T. Siva, S. Sathiyanarayanan, K. V. Gobi, R. Subasri, "Effect of inhibitor loading into nanocontainer additives of self-healing corrosion protection coatings on aluminum alloy A356.0", J. Alloy. Compd. 726, 969-977,‏ 2017.
  53. U. D. Bagale, R. Desale, S. H. Sonawane, R. D. Kulkarni, "An Active Corrosion Inhibition Coating of Two Pack Epoxy Polyamide System using Halloysite Nanocontainer", Prot. Met. Phys. Chem. 54, 230-239,‏ 2018.
  54. S. H. Adsul, K. R. C. S. Raju, B. V. Sarada, S. H. Sonawane, R. Subasri, "Evaluation of self-healing properties of inhibitor loaded nanoclay-based anticorrosive coatings on magnesium alloy AZ91D", J. Magnes. Alloy. 6, 299-308,2018.