Materials Reports 2021, Vol. 35 Issue (Z1): 156-159 |
INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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Progress in Preparation Technology of Transparent Superhydrophobic Coating |
TANG Hong1,2, DONG Binghai1,2, AI Hu1,2
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1 Hubei Collaborative Innovation Center for Advanced Organic Materials,Wuhan 430062,China 2 Key Laboratory for the Green Preparation and Application of Functional Materials, Minister of Education, Hubei University,Wuhan 430062,China |
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Abstract Transparent superhydrophobic coating has unique superhydrophobicity and optical transparency. Due to its excellent self-cleaning perfor-mance, it can be widely used in many fields of production and life. How to construct transparent superhydrophobic coatings on different substrates has great research value. This paper describes the recent progress transparent superhydrophobic coating preparation methods,and summarizes the main problems and development direction of transparent superhydrophobic coatings.
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Published: 16 July 2021
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Fund:Key Program for Intergovernmental S&T Innovation Cooperation Projects of the National Key R&D Program of China (2019YFE0107100). |
About author:: Hong Tang, master degree candidate of Hubei University.The main research direction is functional thin film materials.Binghai Dong, professor and doctoral supervisor, mainly research areas include preparation of photoelectronic functional materials and functional films. |
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1 Nguyen-Tri P, Tran H N, Plamondon C O, et al. Progress in Organic Coatings, 2019, 132, 235. 2 Darband G B, Aliofkhazraei M, Khorsand S, et al. Arabian Journal of Chemistry, 2018, 13(1), 1763. 3 Zhu T X, Cheng Y, Huang J, et al. Chemical Engineering Journal, 2020, 399, 125746. 4 Barthlott W, Neinhuis C. Planta, 1997, 202(1), 1. 5 Spaeth M, Barthlott W. Advances in Science & Technology, 2008, 60, 38. 6 Yan Y Y, Gao N, Barthlott W.Adv Colloid Interface, 2011, 169(2), 80. 7 Koch K, Bhushan B, Barthlott W.Progress in Materials Science, 2009, 54(2), 137. 8 Lin F, Li S H, Li Y, et al. Advanced Materials, 2010, 14(24), 1857. 9 Zheng L J, Wu X D, Lou Z, et al. Chinese Science Bulletin, 2004, 49(17), 1779. 10 Guo Z, Liu W, Su B L. Journal of Colloid and Interface Science, 2011, 353(2), 335. 11 Hooda A, Goyat M S, Pandey J K, et al.Progress in Organic Coatings, 2020, 142, 105557. 12 Joshi D N, Atchuta S R, Reddy L, et al. Solar Energy Materials and Solar Cells, 2019, 200, 110023. 13 Pendse S, Chandra S R K, Narendra C, et al. Solar Energy, 2018, 163, 425. 14 Gao L, He J.Journal of Colloid and Interface Science, 2013, 396, 152. 15 Wang N, Xiong D S. Colloids & Surfaces A: Physicochemical & Enginee-ring Aspects, 2014, 446, 8. 16 Ren T, Geng Z, He J, et al.Journal of Colloid and Interface Science, 2017, 486, 1. 17 Bake A, Merah N, Matin A, et al. Progress in Organic Coatings, 2018, 122, 170. 18 Wang S D, Wang J Y.Applied Surface Science, 2019, 476, 1035. 19 Zhang L Z, Zhi J H. Applied Surface Science, 2018, 454(1), 239. 20 Hooda A, Goyat M S, Kumar A, et al. Materials Letters, 2018, 233, 340. 21 Adak D, Bhattacharyya R, Saha H, et al. Materials Today: Proceedings, 2020, 33(6), 2429. 22 Rezaei S, Manoucheri I, Moradian R, et al. Chemical Engineering Journal, 2014, 252, 11. 23 Zhuang A Y, Liao R J, Dixon S C, et al. RSC Advances, 2017, 7(47), 29275. 24 Zhang F, Shi Z W, Jiang Y J, et al. Applied Surface Science, 2017, 407(15), 526. 25 Tombesi A, Li S, Sathasivam S, et al.Scientific Reports, 2019, 9(1), 7459. 26 Liang Z H, Zhou Z Z, Zhao L, et al. New Journal of Chemistry, 2020, 44, 1. 27 Martin S, Bhushan B. Journal of Colloid & Interface Science, 2017, 488, 118. 28 刘金钊. 自组装超疏水涂层的制备及其减阻性能研究. 硕士学位论文, 大连理工大学, 2012. 29 Li X, He J, Liu W.Materials Research Bulletin, 2013, 48(7), 2522. 30 Zhou Y H, Shang Q Q. Ceramics International, 2016, 42(7), 8706. 31 Lin C Y, Lin K A, Yang T W, et al.Journal of Colloid and Interface Science, 2017, 490, 174. 32 Manabe K, Nishizawa S, Kyung K H, et al.ACS Applied Materials & Interfaces, 2014, 6(16), 13985. 33 Lyu J J, Wu B R, Wu N, et al. Chemical Engineering Journal, 2020, 126456. 34 代学玉, 冷宝林, 高兰玲, 等. 山东化工, 2016, 45(17), 49. 35 王霞, 王辉, 侯丽, 等. 材料工程, 2020, 48(6), 73. 36 Xu Q, Zhao Q, Zhu X F, et al. Nanoscale, 2016, 8(41), 17747. 37 Ebert D, Bhushan B. Journal of Colloid and Interface Science, 2016, 481, 82. 38 Li T, He J H. Chinese Science Bulletin, 2014, 59(8), 715. 39 Zhang C, Kalulu M, Sun S, et al.Colloids & Surfaces A: Physicochemical & Engineering Aspects, 2019, 570, 147. 40 Liu Y, Xu Q F, Lyons A M.Applied Surface Science, 2019, 470(15), 187. 41 Siddiqui A R, Li W, Wang F J, et al. Applied Surface Science, 2021, 542, 148534. 42 Zhang L, Xue C H, Cao M, et al.The Chemical Engineering Journal, 2017, 320, 244. 43 Wang B, Hua Y Q, Ye Y X, et al. Applied Surface Science, 2017, 426(31), 957. |
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