References
- Li J, Zhao Y, Hu J, et al. Anti-icing performance of a superhydrophobic PDMS/modified nano-silica hybrid coating for insulators. J Adhes Sci Technol. 2012;26:665–679.
- Lu J, Guo J, Hu J, et al. Analysis of ice disasters on ultra-high-voltage direct-current transmission lines. Nat Hazards. 2017;86:203–217.
- Fakorede O, Zoé F, Ibrahim H, et al. Christian Masson ice protection systems for wind turbines in cold climate: characteristics, comparisons and analysis. Renew Sustain Energy Rev. 2016;65:662–675.
- Knight CA. Structural biology: adding to the antifreeze agenda. Nature. 2000;406:249–251.
- Parent O, Ilinca A. Anti-icing and de-icing techniques for wind turbines: critical review. Cold Reg Sci Technol. 2011;65:88–96.
- Jafari R, Menini R, Farzaneh M. Superhydrophobic and icephobic surfaces prepared by RF-sputtered polytetrafluoroethylene coatings. Appl Surf Sci. 2010;257:1540–1543.
- Dodiuk H, Kenig S, Dotan A. Do self-cleaning surfaces repel ice? J Adhes Sci Technol. 2012;26:701–714.
- Hu J, Xu K, Wu Y. The freezing process of continuously sprayed water droplets on the superhydrophobic silicone acrylate resin coating surface. Appl Surf Sci. 2014;317:534–544.
- Boinovich LB, Emelyanenko AM. Hydrophobic materials and coatings: principles of design, properties and applications. Russ Chem Rev. 2008;77:583–600.
- Xu Z, Miyazaki K, Hori T. Fabrication of polydopamine-coated superhydrophobic fabrics for oil/water separation and self-cleaning. Appl Surf Sci. 2016;370:243–251.
- Ruan M, Li W, Wang BS, et al. Preparation and anti-icing behavior of superhydrophobic surfaces on aluminum alloy substrates. Langmuir. 2013;29:8482–8491.
- Li W, Zhang X, Yang J, et al. In situ growth of superhydrophobic and icephobic films with micro/nanoscale hierarchical structures on the aluminum substrate. J Colloid Interface Sci. 2013;410:165–171.
- Jafari R, Momen G, Eslami E. Fabrication of icephobic aluminium surfaces by atmospheric plasma jet polymerisation. Surf Eng. 2019;35(5):450–455.
- Sunny S, Vogel N, Howell C, et al. Lubricant-infused nanoparticulate coatings assembled by layer-by-layer deposition. Adv Funct Mater. 2015;24:6658–6667.
- Jiang C, Liu W, Yang M, et al. Synthesis of superhydrophobic fluoro-containing silica sol coatings for cotton textile by one-step sol–gel process. J Sol–Gel Sci Technol. 2018;87:455–463.
- Czyzyk S, Dotan A, Dodiuk H, et al. Processing effects on the kinetics morphology and properties of hybrid solgel superhydrophobic coatings. Prog Org Coat. 2020;140:105501–105501-11.
- Vogel N, Belisle RA, Hatton B, et al. Transparency and damage tolerance of patternable omniphobic lubricated surfaces based on inverse colloidal monolayers. Nat Commun. 2013;4:2167.
- Zhou S, Zhu X, Yan Q. One-step electrochemical deposition to achieve superhydrophobic cobalt incorporated amorphous carbon-based film with self-cleaning and anti-corrosion. Surf Interface Anal. 2018;50:290–296.
- Nakano K, Akita S, Yamanaka M. Fabrication of superhydrophobic surfaces from mixtures of aluminum distearate and fatty acids via intermediate organogel formation. Colloid Polym Sci. 2014;292:1475–1478.
- Xiao X, Xie W, Ye Z. Preparation of corrosion resisting superhydrophobic surface on aluminium substrate. Surf Eng. 2019;5:411–417.
- Li W, Tan X, Zhu J, et al. Broadband antireflective and superhydrophobic coatings for solar cells. Mater Today Energy. 2019;12:348–355.
- Luo G, Jin Z, Dong Y, et al. Preparation and performance enhancements of wear-resistant, transparent PU/SiO2 superhydrophobic coating. Surf Eng. 2018;34(2):139–145.
- Irajizad P, Nazifi S, Ghasemi H. Icephobic surfaces: definition and figures of merit. Adv Colloid Interface Sci. 2019;269:203–218.
- Jin H, Li Z, Wei S, et al. Corrosion resistance and dynamic anti-icing of superhydrophobic surface on ASW. Surf Eng. 2018;34(8):603–610.
- Alemour B, Badran O, Roshdi HM. A review of using conductive composite materials in solving lightening strike and ice accumulation problems in aviation. J Aerosp Technol Manag. 2019;11:1919-1919-23.
- Wang M, Tan XY, Tu YT, et al. Self-healing PDMS/SiO2-CaCO3 composite coating for highly efficient protection of building materials. Mater Lett. 2020;265:127290.
- Lian Z, Xu J, Yu Z, et al. A simple two-step approach for the fabrication of bio-inspired superhydrophobic and anisotropic wetting surfaces having corrosion resistance. J Alloy Compd. 2019;793:326–335.
- Syed J, Tang S, Meng X. Super-hydrophobic multilayer coatings with layer number tuned swapping in surface wettability and redox catalytic anti-corrosion application. Sci Rep. 2017;7(1):4403.
- Chu Z, Seeger S. Superamphiphobic surfaces. Chem Soc Rev. 2014;43:2784–2798.
- Nakajima A, Hashimoto K, Watanabe T. Transparent superhydrophobic thin films with self-cleaning properties. Langmuir. 2000;16:7044–7047.
- Cao L, Jones A, Sikka V, et al. Anti-icing superhydrophobic coatings. Langmuir. 2009;25:12444–12448.
- Graeber G, Schutzius TM, Eghlidi H, et al. Spontaneous self-dislodging of freezing water droplets and the role of wettability. Proc Natl Acad Sci USA. 2017;114:11040–11045.
- Deng X, Mammen L, Zhao YF, et al. Transparent, thermally stable and mechanically robust superhydrophobic surfaces made from porous silica capsules. Adv Mater. 2011;23:2962–2965.