·940·                             精细化工   FINE CHEMICALS                                 第 38 卷

            参考文献：                                                  icephobic surfaces based on candle soot[J]. Proceedings of the National
                                                                   Academy of Sciences, 2020, 117(21): 11240-11246.
            [1]   CHANDRA  A, GHOSH S, DOSHI N, et al. A case study on
                                                               [14]  SHEN Y Z, WU Y, TAO J, et al. Spraying fabrication of durable and
                 assessing cumulonimbus induced flight vulnerabilities over the
                                                                   transparent coatings for anti-icing application: Dynamic water
                 nepalese himalayan terrain[J]. Pure and Applied Geophysics, 2020,
                                                                   repellency, icing delay, and ice adhesion[J]. ACS Applied Materials
                 177(10): 5041-5066.
                                                                   & Interfaces, 2018, 11(3): 3590-3598.
            [2]   WEI H B, HE  Q Q, JIAO Y  B, et  al. Evaluation of anti-icing
                                                               [15]  JIN M M, SHEN Y Z, LUO X Y, et al. A combination structure of
                 performance for crumb rubber and diatomite compound modified
                                                                   microblock and nanohair fabricated by chemical etching for excellent
                 asphalt mixture[J]. Construction and Building Materials, 2016, 107:
                                                                   water repellency and icephobicity[J]. Applied Surface Science, 2018,
                 109-116.
                                                                   455: 883-890.
            [3]   HOU Y M (侯永明), HAN F X (韩飞雪). Analysis  on hazards of
                 electrical insulator icing on safe operation of electrical equipment[J].   [16]  WANG  L,  GONG Q H, ZHAN S  H, et al. Robust  anti-icing
                                                                   performance of a flexible superhydrophobic surface[J].  Advanced
                 Energy Science and Technology (能源科技), 2020, 18(8): 55-59.
            [4]   WEI X X, JIA Z D, SUN Z T, et al. Effect of the parameters of the   Materials, 2016, 28(35): 7729-7735.
                                                               [17]  MA L W, WANG J K, ZHAO F T, et al. Plasmon-mediated photothermal
                 semiconductive coating  on  the anti-icing performance of  the
                 insulators[J]. IEEE Transactions on Power Delivery, 2016, 31(4):   and superhydrophobic TiN-PTFE film for anti-icing/deicing applications[J].
                 1413-1421.                                        Composites Science and Technology, 2019, 181: 107696.
            [5]   JIANG M (蒋明), ZHAO H D(赵汉棣), MA X Q (马小强). Icing of   [18]  CHENG T T, HE R, ZHANG Q H, et al. Magnetic particles-based
                 HV transmission line and  summary of anti-icing and de-icing   super-hydrophobic coatings with excellent anti-icing and thermoresponsive
                 technology[J]. Electric Safety Technology(电力安全技术), 2020,   deicing performances[J]. Journal of  Materials Chemistry A, 2015,
                 22(4): 26-32.                                     3(43): 21637-21646.
            [6]   JIANG X L (蒋兴良), MA J (马俊), WANG S H (王少华), et al. Ice   [19]  JIANG G, CHEN L, ZHANG S  D,  et al. Superhydrophobic
                 damage accident of transmission line and cause analysis[J]. Electric   SiC/CNTs coatings with photothermal deicing and passive anti-icing
                 Power (中国电力), 2005, 38(11): 27-30.                properties[J]. ACS Applied Materials & Interfaces,  2018, 10(42):
            [7]   HANNAT R, WEISS J, GARNIER F, et al. Application of the dual   36505-36511.
                 kriging method for the design  of hot-air-based aircraft wing   [20]  ZHANG S N, HUANG J Y, CHENG Y, et al. Bioinspired surfaces
                 anti-icing system[J].  Engineering Applications of Computational   with superwettability for anti-icing  and ice-phobic application:
                 Fluid Mechanics, 2014, 8(4): 530-548.             Concept, mechanism, and design[J]. Small, 2017, 13 (48):1701867.
            [8]   BUSTILLOS J, ZHANG C,  BOESL B, et al. Three-dimensional   [21]  XU B B (徐兵兵), HUANG Y W (黄月文), WANG  B (王斌).
                 graphene foam-polymer  composite with superior deicing efficiency   Preparaion and performance of fluorine-free superhydrophobic coatings
                 and strength[J]. ACS Applied Materials & Interfaces, 2018, 10(5):   based on modified silica and polysiloxane[J]. Fine Chemicals (精细
                 5022-5029.                                        化工), 2019, 36(10): 2009-2015.
            [9]   COLDSNOW K D, RELYEA R A. Toxicity of various road-deicing   [22]  LIAO Z F (廖正芳), ZHANG W (张伟), MENG X Q (孟小琪) , et
                 salts to Asian clams (Corbicula fluminea)[J]. Environmental   al. Preparation of sprayable superhydrophobic materials based on
                 Toxicology and Chemistry, 2018, 37(7): 1839-1845.   tannic acid[J]. Fine Chemicals (精细化工), 2020, 37(5): 893-897.
            [10]  RUAN M, ZHAN Y L, WU Y S, et al. Preparation of PTFE/PDMS   [23]  LI  B,  LI X H, ZHANG K Q, et  al.  Synthesis of POSS-containing
                 superhydrophobic coating and its anti-icing performance[J]. RSC   fluorosilicone block copolymers  via RAFT polymerization for
                 Advances, 2017, 7(66): 41339-41344.               application as non-wetting coating materials[J]. Progress in Organic
            [11]  ZHENG H K, CHANG S N,  ZHAO  Y Y. Anti-icing & icephobic   Coatings, 2015, 78: 188-199.
                 mechanism and applications of superhydrophobic/ultra-slippery surface[J].   [24]  LI Y, ZHANG X G, CUI Y X, et al. Anti-corrosion enhancement of
                 Progress in Chemistry, 2017, 29(1): 102-118.      superhydrophobic coating utilizing oxygen vacancy  modified
            [12]  LI Y B, LI B C, ZHAO X, et al. Totally waterborne,nonfluorinated,   potassium titanate whisker[J]. Chemical Engineering Journal, 2019,
                 mechanically Robust, and self-healing superhydrophobic coatings for   374: 1326-1336.
                 actual anti-icing[J]. ACS Applied Materials & Interfaces, 2018, 10   [25]  AHN Y, LEE D, KWON M, et al. Characteristics and fate of natural
                 (45): 39391-39399.                                organic matter during UV oxidation processes[J]. Chemosphere,
            [13]  WU S H, DU Y J, ALSAID Y, et al. Superhydrophobic photothermal   2017, 184: 960-968.