References
- Abbey, K.J., 2010. Advances in epoxy adhesives. In D.A. Dillard, ed. Advances in structural adhesive bonding. First Edit. Cambridge: Woodhead Publishing, 20–34.
- Ahangaran, F., Navarchian, A.H., and Picchioni, F., 2019. Material encapsulation in poly (methyl methacrylate) shell: a review. Journal of applied polymer science, 136 (41), 48039–48021.
- Alizadegan, F., et al. 2017. Polyurethane-based microcapsules containing reactive isocyanate compounds: study on preparation procedure and solvent replacement. Colloids and surfaces A: physicochemical and engineering aspects, 529, 750–759.
- Attaei, M., et al. 2018. Isophorone diisocyanate (IPDI) microencapsulation for mono-component adhesives: effect of the active H and NCO sources. Polymers, 10 (8), 825.
- Attaei, M., et al. 2020a. Hybrid shell microcapsules containing isophorone diisocyanate with high thermal and chemical stability for autonomous self-healing of epoxy coatings. Journal of applied polymer science, 137 (22), 48751–48751.
- Attaei, M., et al. 2020b. Autonomous self-healing in epoxy coatings provided by high efficiency isophorone diisocyanate (IPDI) microcapsules for protection of carbon steel. Progress in organic coatings, 139, 105445.
- Bagheri, R., Marouf, B.T., and Pearson, R.A., 2009. Rubber-toughened epoxies: a critical review. Polymer reviews, 49 (3), 201–225.
- Bai, L., et al. 2018. Pickering emulsions by combining cellulose nanofibrils and nanocrystals: Phase behavior and depletion stabilization. Green chemistry, 20 (7), 1571–1582.
- Blaiszik, B.J., et al. 2010. Self-healing polymers and composites. Annual review of materials research, 40 (1), 179–211.
- Brochu, A.B.W., Chyan, W.J., and Reichert, W.M., 2012. Microencapsulation of 2-octylcyanoacrylate tissue adhesive for self-healing acrylic bone cement. Journal of biomedical materials research part B: applied biomaterials, 100B (7), 1764–1772.
- Budd, M.E., et al. 2019. Exploiting thermally-reversible covalent bonds for the controlled release of microencapsulated isocyanate crosslinkers. Reactive and functional polymers, 135, 23–31.
- Chakrabarty, A., et al. 2016. Nanoclay stabilized Pickering miniemulsion of fluorinated copolymer with improved hydrophobicity via RAFT polymerization. RSC advances, 6 (41), 34987–34995.
- Cherng, J.Y., et al. 2013. Polyurethane-based drug delivery systems. International journal of pharmaceutics, 450 (1–2), 145–162.
- Di Credico, B., Levi, M., and Turri, S., 2013. An efficient method for the output of new self-repairing materials through a reactive isocyanate encapsulation. European polymer journal, 49 (9), 2467–2476.
- Domun, N., et al. 2015. Improving the fracture toughness and the strength of epoxy using nanomaterials – a review of the current status. Nanoscale: Royal society of chemistry, 7, 10294–10329.
- Frelichowska, J., Bolzinger, M., and Chevalier, Y., 2009. Pickering emulsions with bare silica. Colloids and surfaces A: physicochemical and engineering aspects, 343 (1–3), 70–74.
- Giro-Paloma, J., et al. 2017. Comparison of microencapsulated phase change materials prepared at laboratory containing the same core and different shell material. Applied sciences, 7 (7), 723.
- Gogoi, R., Alam, M.S., and Khandal, R.K., 2014. Effect of increasing NCO/OH molar ratio on the physicomechanical and thermal properties of isocyanate terminated polyurethane prepolymer. International journal of basic and applied sciences, 3 (2), 118–123.
- Gouveia, J.R., et al. 2019a. Temperature modulated optical refractometry A pathway towards curing kinetic of polyurethane from oxypropylated kraft lignin. Journal of thermal analysis and calorimetry, 138 (4), 2429–2434.
- Gouveia, J.R., et al. 2019b. Synthesis of lignin-based polyurethanes: a mini-review. Mini-Reviews in organic chemistry, 16 (4), 345–352.
- Gray, A., et al. 2016. Determination of microcapsule physicochemical, structural, and mechanical properties. Particuology, 24, 32–43.
- Guo, M., et al. 2020. Microencapsulation of oil soluble polyaspartic acid ester and isophorone diisocyanate and their application in self-healing anticorrosive epoxy resin. Journal of applied polymer science, 137 (12), 48478.
- Haghayegh, M., Mirabedini, S.M., and Yeganeh, H., 2016. Microcapsules containing multi-functional reactive isocyanate-terminated polyurethane prepolymer as a healing agent. Part 1: synthesis and optimization of reaction conditions. Journal of materials science, 51 (6), 3056–3068.
- He, Z., et al. 2017. Facile and cost-effective synthesis of isocyanate microcapsules via polyvinyl alcohol-mediated interfacial polymerization and their application in self-healing materials. Composites science and technology, 138, 15–23.
- He, Z., et al. 2019. Self-healing isocyanate microcapsules for efficient restoration of fracture damage of polyurethane and epoxy resins. Journal of materials science, 54 (11), 8262–8275.
- Henrique, V., et al. 2019. Synthesis, characterization and qualitative assessment of self-healing capacity of PU microcapsules containing TDI and IPDI as a core agent. Materials today communications, 21,100698.
- Hu, J., et al. 2018. Synthesis, characterizations and mechanical properties of microcapsules with dual shell of polyurethane (PU)/melamine formaldehyde (MF): effect of different chain extenders. Industrial & engineering chemistry research, 57 (10), 3591–3601.
- Huang, M., and Yang, J., 2011. Facile microencapsulation of HDI for self-healing anticorrosion coatings. Journal of materials chemistry, 21 (30), 11123–11130.
- Jing, X., et al. 2018. Biocompatible, self-healing, highly stretchable polyacrylic acid/reduced graphene oxide nanocomposite hydrogel sensors via mussel-inspired chemistry. Carbon, 136, 63–72.
- Kamphaus, J.M., et al. 2008. A new self-healing epoxy with tungsten (VI) chloride catalyst A new self-healing epoxy with tungsten (VI) chloride catalyst. Journal of the royal society interface, 5, 95–103.
- Kardar, P., 2015. Preparation of polyurethane microcapsules with different polyols component for encapsulation of isophorone diisocyanate healing agent. Progress in organic coatings, 89, 271–276.
- Keller, M.W., Hampton, K., and Mclaury, B., 2013. Self-healing of erosion damage in a polymer coating. Wear, 307 (1–2), 218–225.
- Keller, M.W., and Sottos, N.R., 2006. Mechanical properties of microcapsules used in a self-healing polymer. Experimental mechanics, 46 (6), 725–733.
- Keskin, R., and Adanur, S., 2011. Improving toughness of polypropylene with thermoplastic elastomers in injection molding. Polymer-plastics technology and engineering, 50 (1), 20–28.
- Kim, S., et al. 2016. Toward microcapsule-embedded self-healing membranes. Environmental science & technology letters, 3 (5), 216–221.
- Kong, F., et al. 2018. High-efficiency self-repairing anticorrosion coatings with controlled assembly microcapsules. Journal of materials science, 53 (18), 12850–12859.
- Kudryavtseva, V., et al. 2021. Biodegradable defined shaped printed polymer microcapsules for drug delivery. Applied materials & interfaces, 13, 2371–2381.
- Lengyel, M., et al. 2019. Microparticles, microspheres, and microcapsules for advanced drug delivery. Scientia pharmaceutica, 87 (3), 20.
- Li, C., et al. 2016. Rapid and efficient synthesis of isocyanate microcapsules via thiol-ene photopolymerization in pickering emulsion and its application in self-healing coating. Composites science and technology, 123, 250–258.
- Liu, X., et al. 2006. Characterization of diene monomers as healing agents for autonomic damage repair. Journal of applied polymer science, 101 (3), 1266–1272.
- Loureiro, V., et al. 2020. The role played by different active hydrogen sources in the microencapsulation of a commercial oligomeric diisocyanate. Journal of materials science, 55 (11), 4607–4623.
- Lu, W., et al. 2019. Facile and efficient isocyanate microencapsulation via SDBS/PVP synergetic emulsion. Journal of applied polymer science, 136 (41), 48045.
- Lubis, M.A.R., Park, B., and Lee, S., 2020. Microencapsulation of polymeric isocyanate for the modification of urea-formaldehyde resins. International journal of adhesion and adhesives, 100, 102599.
- Ma, Y., et al. 2017. A rapid and efficient route to preparation of isocyanate microcapsules. Polymers, 9 (12), 274.
- Ma, Y., Lu, P., et al. 2019. Preparation of isocyanate microcapsules as functional crosslinking agent by minimalist interfacial polymerization. Advanced powder technology, 30 (10), 1995–2002.
- Ma, Y., Zhang, Y., et al. 2021. Synthesis of isocyanate microcapsules as functional crosslinking agent for wood adhesive crosslinking agent for wood adhesive. The journal of adhesion, 97 (1), 38–31.
- Mcilroy, D. A., 2011. Microencapsulation of reactive amines and isocyanates and their application to self- healing systems. Urbana, Illinois: University of Illinois at Urbana-Champaign.
- Ming, Y., et al. 2016. Preparation of polyurea/melamine formaldehyde double-layered self-healing microcapsules and investigation on core fraction. Journal of microencapsulation, 33 (4), 307–314.
- Murphy, E.B., and Wudl, F., 2010. The world of smart healable materials. Progress in polymer science, 35 (1–2), 223–251.
- Najjar, R., et al. 2018. Preparation and corrosion performance of healable waterborne polyurethane coatings containing isophoronediisocyanate loaded silica capsules. Journal of the Taiwan institute of chemical engineers, 93, 1–10.
- Nguyen, L.-T.T., et al. 2015. Efficient microencapsulation of a liquid isocyanate with in situ shell functionalization. Polymer chemistry, 6 (7), 1159–1170.
- Peng, G., et al. 2020. Phase change material (PCM) microcapsules for thermal energy storage. Advances in polymer technology, 2020, 1–20.
- Rong, M.Z., Zhang, M.Q., and Zhang, W., 2007. A novel self-healing epoxy system with microencapsulated epoxy and imidazole curring agent. Advanced composite letters, 16 (5), 167–172.
- Sharkawy, A., et al. 2017. Aroma-loaded microcapsules with antibacterial activity for eco- friendly textile application: synthesis, characterization, release, and green grafting. Industrial & engineering chemistry research, 56 (19), 5516–5526.
- Sharmin, E., and Zafar, F., 2012. Polyurethane: an introduction. In F. Zafar, ed. Polyurethane. First Edit. New Delhi, India: IntechOpen, pp. 3–16. doi: 10.5772/51663. IntechOpen, 3–16.
- Su, W., Darkwa, J., and Kokogiannakis, G., 2015. Review of solid–liquid phase change materials and their encapsulation technologies. Renewable and sustainable energy reviews, 48, 373–391.
- Sun, D., et al. 2015. Double-layered reactive microcapsules with excellent thermal and non-polar solvent resistance for self-healing coatings. Journal of materials chemistry A, 3 (8), 4435–4444.
- Sun, D., et al. 2016. Water resistant reactive microcapsules for self-healing coatings in harsh environments. Polymer, 91, 33–40.
- Sun, D., et al. 2018. Chemically and thermally stable isocyanate microcapsules having good self- healing and self-lubricating performances. Chemical engineering journal, 346, 289–297.
- Sun, Y., et al. 2020. Optimized synthesis of isocyanate microcapsules for self-healing application in epoxy composites. High performance polymers, 32 (6), 669–680.
- Sun, G., and Zhang, Z., 2002. Mechanical strength of microcapsules made of different wall materials. International journal of pharmaceutics, 242 (1–2), 307–311.
- Tan, L., et al. 2020. Effect of carbonation on bacteria-based self-healing of cementitious composites. Construction and building materials, 257, 119501.
- Tang, Y., et al. 2013. Interlaminar fracture toughness and CAI strength of fibre-reinforced composites with nanoparticles – a review. Composites science and technology, 86, 26–37.
- Tavares, L.B., et al. 2016. Bio-based polyurethane prepared from Kraft lignin and modified castor oil. Express polymer letters, 10 (11), 927–940.
- Ullah, H., et al. 2016. The potential of microencapsulated self-healing materials for microcracks recovery in self-healing composite systems: a review. Polymer reviews, 56 (3), 429–485.
- Urbas, R., et al. 2017. Microcapsules application in graphic arts industry: a review on the state – of – the – art. Iranian polymer journal, 26 (7), 541–561.
- Vijayan, P., and Almaadeed, M.A., 2016. Containers” for self-healing epoxy composites and coating: trends and advances. Express polymer letters, 10 (6), 506–525.
- Wang, L., et al. 2020. Preparation and characterization of wormwood- oil-contained microcapsules. Journal of microencapsulation, 37 (4), 324–331.
- Wang, W., et al. 2013. Synthesis of isocyanate microcapsules and micromechanical behavior improvement of microcapsule shells by oxygen plasma treated carbon nanotubes. Journal of materials chemistry A, 1 (3), 776–782.
- White, S.R., et al. 2001. Autonomic healing of polymer composites. Nature, 409, 794–797.
- Wu, G., et al. 2014a. Robust microcapsules with polyurea/silica hybrid shell for one-part self-healing anticorrosion coatings. Journal of materials chemistry A, 2 (30), 11614–11620.
- Wu, G., et al. 2014b. A versatile approach towards multifunctional robust microcapsules with tunable, restorable, and solvent-proof superhydrophobicity for self-healing and self-cleaning coatings. Advanced functional materials, 24 (43), 6751–6761.
- Yang, J., et al. 2008. Microencapsulation of isocyanates for self-healing polymers. Macromolecules, 41 (24), 9650–9655.
- Yang, Y., Ding, X., and Urban, M.W., 2015. Chemical and physical aspects of self-healing materials. Progress in polymer science, 49–50, 34–59.
- Yang, H., Mendon, S.K., and Rawlins, J.W., 2008. Nanoencapsulation of blocked isocyanates through aqueous emulsion polymerization. Express polymer letters, 2 (5), 349–356.
- Yang, Y., and Urban, M.W., 2013. Self-healing polymeric materials. Chemical society reviews, 42 (17), 7446–7467.
- Yi, H., et al. 2015. Multilayer composite microcapsules synthesized by Pickering emulsion templates and their application in self-healing coating. Journal of materials chemistry A, 3 (26), 13749–13757.
- Yuan, Y.C., et al. 2008. Self healing in polymers and polymer composites. Concepts, realization and outlook: a review. Express polymer letters, 2 (4), 238–250.
- Zhang, Y., and Rochefort, D., 2012. Characterisation and applications of microcapsules obtained by interfacial polycondensation. Journal of microencapsulation, 29 (7), 636–614.
- Zhu, D.Y., Rong, M.Z., and Zhang, M.Q., 2015. Self-healing polymeric materials based on microencapsulated healing agents: From design to preparation. Progress in polymer science, 49–50, 175–220.