中文
Earlier issues
Announcement
More
Progress in Chemistry 2017, Vol. 29 Issue (1): 102-118 DOI: 10.7536/PC161015 Previous Articles   Next Articles

• Review •

Anti-Icing & Icephobic Mechanism and Applications of Superhydrophobic/Ultra Slippery Surface

Haikun Zheng, Shinan Chang*, Yuanyuan Zhao   

  1. School of Aeronautic Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China
  • Received: Revised: Online: Published:
  • Supported by:
    The work was supported by the National Basic Research Program of China (No.2015CB755803) and the National Natural Science Foundation of China (No. 11672024, 11372026).
PDF ( 1819 ) Cited
Export

EndNote

Ris

BibTeX

Superhydrophobic/Ultra slippery surfaces have shown numerous anti-icing/icephobic applications because of their low energy, light weight, simple structure. But there still exist some problems, which attract considerable attention of researchers. Based on the icing microphysics, and the practical application background, the mechanism and impact factors of anti-icing/icephobic surface are discussed. The progresses and questions of current research are summarized in this review. Then a new performance evaluation method of anti-icing/icephobic ice is also presented. Finally, challenges and prospects in this area are also discussed. This review about the anti-icing/icephobic surface not only enriches our understanding, but also provides clues of anti-icing/icephobic surface designing and engineering application.

Contents
1 Introduction
2 Effection mechanism of anti-icing/icephobic surfaces
2.1 Physical phenomenon of icing
2.2 Influencing factor and application analysis
2.3 Mechanism of anti-icing/Icephobic
3 Research status in anti-icing/icephobic surfaces
3.1 Anti-icing surface
3.2 Icephobic surface
4 Performance evaluation
5 Conclusion

Key words: superhydrophobic surface, ultra slippery surface, anti-icing, icephobic, performance evaluation

CLC Number: 

[1] Borisova N A, Goryachev D V, Koscheev A B. TsAGI Science Journal, 2014, 45(8):915.
[2] 王超(Wang C),常士楠(Chang S N),吴孟龙(Wu M L).航空学报(Acta Aeronautica et Astronautica Sinca), 2014,35(4):1004.
[3] Cao Y H, Wu Z L, Su Y. Progress in Aerospace Sciences, 2015,74:62.
[4] Olivier Parent, Adrian Ilinca. Cold Regions Science and Technology, 2011, 65(1):88.
[5] Fillion R M, Riahi A R.Renewable and Sustainable Energy Reviews, 2014, 32:797.
[6] Hwang J, Cho K. International Journal of Refrigeration, 2014, 46:59.
[7] Song M, Mao N, Deng S, Xia Y, Chen Y. Applied Thermal Engineering, 2016, 99:730.
[8] Lin Q, Nixon W A. Transportation Research Record Journal of the Transportation Research Board, 2008, 2055:139.
[9] Hambly D, Andrey J, Mills B, Fletcher C.Climatic Change, 2013, 116(3):613.
[10] 中华人民共和国民政部(Ministry of Civil Affairs of the People's Republic of China),(2008-02-24).[2016-06-06]. http://www.mca.gov.cn/article/zwgk/mzyw/200802/20080200011960.shtml.
[11] Kreder M J, Alvarenga J, Kim P, Aizenberg J. Nature, 2016, 1:1.
[12] 李辉(Li H),赵蕴慧(Zhao Y H),袁晓燕(Yuan X Y).化学进展(Progress in Chemistry).2012, 24(11):2087.
[13] Barthlott W, Neinhuis C. Planta, 1997, 202(1):1.
[14] Onda T, Shibuichi S, Satoh N, Tsujii K. Langmuir, 1996, 12(9):2125.
[15] Wong T S, Kang S H, Tang S K Y, Smythe E J, Hatton B D, Grinthal A, Joanna Aizenberg. Nature, 2011,477(7365),443.
[16] 阎映弟(Yan Y D),罗能镇(Luo N Z),相咸高(Xiang X G).化学进展(Progress in Chemistry), 2014, 26(1):214.
[17] Lv J Y, Song Y, Jiang L, Wang J. ACS Nano, 2014, 8(4):3152.
[18] Boinovich L B, Emelyanenko A M. Mendeleev Communications, 2013, 23:3.
[19] Darmanin T, Guittard F. Journal of Materials Chemistry A, 2014, 2:16319.
[20] 陈钰(Chen Y),徐建生(Xu J S),郭志光(Guo Z G).化学进展(Progress in Chemistry). 2012, 24(5):696.
[21] Wang G, Guo Z, Liu W. Journal of Bionic Engineering, 2014, 11(3), 325.
[22] Wang S, Liu K, Yao X, Jiang L. Chem. Rev., 2015, 115:8230.
[23] Cheng Y T, Rodak D E. Appl. Phys. Lett., 2005,86(14):144101.
[24] Zheng Y M, Han D, Zhai J, Jiang L. Appl. Phys. Lett., 2008, 92(8):084103.
[25] Huang L Y, Liu Z L, Liu Y M, Gou Y J, Wang L. Experimental Thermal and Fluid Science, 2012, 40:74.
[26] Varanasi K K, Deng T, David Smith J, Hsu M, Bhate N. Appl. Phys. Lett., 2010, 97:234102.
[27] Kulinich S A, Farhadi S, Nose K. Langmuir,2011,27(1):25.
[28] Chen J, Liu J, He M, Li K Y, Cui D P, Zhang Q L, Zeng X P, Zhang Y F, Wang J J, Song Y L. Appl. Phys. Lett., 2012, 101:111603.
[29] 吕建勇(Lv J Y),王建君(Wang J J).涂料科学与文摘(Coatings Technology & Abstracts),2014,35(8):37.
[30] Liu Q, Yang Y, Huang M, Zhou Y, Liu Y, Liang X. Applied Surface Science, 2015,346:68.
[31] Wexler J S, Grosskopf A, Chow M, Fan Y, Jacobi I, Stone H A. Soft Matter, 2015,11(25):5023.
[32] Rykaczewski K, Anand S, Subramanyam S B, Varanasi K K. Langmuir, 2013,29(17), 5230.
[33] 安光明(An G M), 凌世全(Ling S Q), 王智伟(Wang Z W),栾琳(Yi L),吴天准(Wu T Z).化学进展(Progress in Chemistry). 2015, 27(12):1705.
[34] Schutzius T M, Jung S, Maitra T, Eberle P, Antonini C, Stamatopoulos C, Poulikakos D.Langmuir, 2015, 31:4807.
[35] 蒋兴良(Jiang X L), 易辉(Yi H). 输电电路覆冰及防护(Icing and Protection of Transmission Lines). 北京:中国电力出版社(Beijing:China Electric Power Press), 2001.
[36] 东乔天(Dong Q T),金哲岩(Jin Z Y),杨志刚(Yang Z G).机械设计与制造(Machinery Design & Manufacture).2014(10):269.
[37] Ryerson C C. ERDC/CRRELTR-09-14Report,U.S. Army Engineer Research and Development center,Hanover,NH 2008.
[38] Nosonovsky M, Bhushan B. Microsyst Technol,2005, 11:535.
[39] Tuvshindorj U, Yildirim A, Ozturk F E, Bayindir M. ACS Appl. Mater. Interfaces, 2014, 6(12):9680.
[40] Crawford R J, Ivanova E P. Superhydrophobic Surface. 1st ed. London:Elsevier, 2015. 27.
[41] Celia E, Darmanin T, Givenchy de E T, Amigoni S, Guittard F. Journal of Colloid and Interface Science, 2013,402:1.
[42] Tang Y, Zhang Q, Zhan X, Chen F. Soft Matter, 2015, 11(22):4540.
[43] 周诗建(Zhou S J), 王存忠(Wang C Z),俞卫平(Yu W P). 英汉汉英大气科学词汇(Englsih-Chinese and Chinese-English dictionary of atmospheric sciences). 北京:气象出版社(Beijing:China Meteorogical Press), 2012.
[44] 高学贤(Gao X X), 曹瑞(Cao R). 汉英工程词库(Chinese-English Engineering Dictionary). 上海:世界图书出版公司(Shanghai:World Publishing Corporation), 2011.
[45] (2016-04-20).[2016-05-20]. https://en.wikipedia.org/wiki/Snow_removal.
[46] Kulinich S A, Farzaneh M. Alkylsilane. Applied Surface Science, 2004, 230:232.
[47] Meuler A J, McKinley G H, Cohen R E. ACS Nano, 2010, 4:7048.
[48] Meuler A J, Smith J D, Varanasi K K, Mabry J M, Mckinley G H, Cohen R E. Applied Materials & Interfaces, 2010, 2(11):3100.
[49] Zheng L, Li Z, Bourdo S, Khedir K R, Asar M P, Ryerson, C C, Birs A S.Langmuir, 2011,27(16):9936.
[50] Jung S, Dorrestijn M, Raps D, Das A, Megaridis C M, Poulikakos D. Langmuir, 2011,27:3059.
[51] Nosonovsky M, Hejazi V. ACS Nano. 2012, 6(10):8488.
[52] Bahadur V, Mishchenko L, Hatton B, Taylor J A, Aizenberg J, Krupenkin T. Langmuir, 2011, 27(23):14143.
[53] Dotan A, Dodiuk H, Laforte C, Kenig S. Journal of Adhesion Science & Technology, 2009, 23(23):1907.
[54] Menini R, Ghalmi Z, Farzaneh M. Cold Regions Science & Technology, 2011, 65(1):65.
[55] Farhadi S, Farzaneh M, Kulinich S A. Applied Surface Science, 2011, 257(14):6264.
[56] Boreyko J B,Chen C. Physical Review Letters, 2009, 103:184501.
[57] Tourkine P, Le Merrer M, Quere D. Langmuir, 2009, 25(13):7214.
[58] Alizadeh A, Yamada M, Li R, Shang W, Otta S, Zhong S, Ge L H, Dhinowala A, Conway V H, Vinciquerra A J, Stephens B, Blohm M L. Langmuir, 2012, 28(6):3180.
[59] Ukiwe C, Kwok D Y. Langmuir, 2005, 21:666.
[60] Son Y, Kim C, Yang D H, Ahn D J. Langmuir, 2008, 24:2900.
[61] 刘天庆(Liu T Q),孙玮(Sun W),孙相彧(Sun X Y),艾宏儒(Ai H R).物理化学学报(Acta Physico-Chimica Sinica), 2012, 28(5):1206.
[62] Gaurav Chaudhary, Ri Li. Experimental Thermal and Fluid Science, 2014, 57:86.
[63] Wang C, Chang S, Wu H, Xu J. Applied Physics Letters, 2014, 104:154107.
[64] Mishchenko L, Hatton B, Bahadur V, Taylor A J, Krupenkin T, Aizenberg J. ACS Nano, 2010,4(12):7699.
[65] Shen Y, Tao H, Chen S, Zhu L, Wang T, Tao J. Rsc Advances, 2015, 5(3):1666.
[66] Maitra T, Antonini C, Tiwari M K, Mularczyk A, Imeri Z, Schoch P, Poulikakos D. Langmuir, 2014, 30(36):10855.
[67] Raessi M, Thiele M, Amirzadeh B. ASME 2013 Heat Transfer Summer Conference Collocated with the ASME 2013. V002T07A032.
[68] Sarshar M A, Swarctz C, Hunter S, Simpson J, ChoiC H. Colloid & Polymer Science,2013, 291(2):427.
[69] 王媛怡(Wang J Y). 南京大学博士论文(Doctoral Dissertation of Nanjing University), 2015.
[70] Brunet P, Lapierre F, Thomy V, Coffinier Y, Boukherroub R. Langmuir, 2008, 24(19):11203.
[71] Hee Kwon D, Joon Lee S. Applied Physics Letters, 2012, 100(17):171601.
[72] Maitra T, Tiwari M K, Antonini C, Schoch P, Jung S, Eberle P, Poulikakos D. Nano Letters, 2014,14(1):172.
[73] Quan Y, Zhang L Z. Langmuir, 2014, 30(39):11640.
[74] Marmur A. Langmuir, 2004, 20(9):3517.
[75] Marmur A. Langmuir, 2003, 19(20):8343.
[76] Cheng Y T, Rodak D E, Anastasios A. Applied Physics Letters, 2005, 87:194112.
[77] Xiao X, Cheng Y. Journal of Materials Research, 2008, 23(08):2174.
[78] Liu Y, Choi C H. Colloid & Polymer Science, 2013, 291(2):585.
[79] Yang S, Xia Q, Zhu L, Xue J. Applied Surface Science, 2011,257(11):4956.
[80] 龙江游(Long J Y),吴颖超(Wu Y C),龚鼎为(Gong D W),范培迅(Fan P X),江大发(Jiang D F),张红军(Zhang H J),钟敏霖(Zhong M L).中国激光(CHINESE JOURNAL OF LASERS), 2015, 42(7):156.
[81] Zhang Q, He M, Chen J, Wang J, Song Y, Jiang L. Chemical Communications, 2013, 49(40):4516.
[82] Liang Z, Keblinski P. Applied Physics Letters, 2015, 107(14):184501.
[83] Qu X, Boreyko J B, Liu F, Agapov R L, Lavrik N V, Retterer S T, Feng J J, Collier C P, Chen C H. Applied Physics Letters,2015, 106(22):53.
[84] Chen X, Patel R S, Weibel J A, Garimella S V. Scientific Reports, 2016, 6:18649.
[85] Rykaczewski K, Osborn W A, Chinn J, Walker M L, Scott J H J, Jones W, Hao C, Yao S, Wang Z. Soft Matter, 2012, 8(33):8786.
[86] Kim A, Lee C, Kim H, & Kim J. Acs Applied Materials & Interfaces, 2015, 7(13):7206.
[87] Subramanyam S B, Kondrashov V, Rühe J, Varanasi K K. Applied Materials & Interfaces, 2016, 8(20):12583.
[88] Boreyko J B, Collier C P. ACS Nano, 2013, 7(2):1618.
[89] Hao Q, Pang Y, Zhao Y, Zhang J, Feng J, Yao S. Langmuir, 2014, 30(51):15416.
[90] Cao Y, Yuan L, Hu B, Zhou J. Nanotechnology, 2015,26(31):315705.
[91] Chen X, Ma R, Zhou H, Zhou X, Che L, Yao S H. Scientific Reports, 2013, 3(8):618.
[92] Tuteja A, Choi W,Ma M, Mabry J M, Mazzella S A, Rutledge G C,McKinley G H, Cohen R E. Science, 2008, 318(5856):1618.
[93] Liu T, Kim C J. Science, 2014, 346:1096.
[94] 王磊(Wang L),侯永平(Hou Y P),郑咏梅(Zheng Y M).高等学校化学学报(Chemical Journal of Chinese Universities). 2015, 36(8):1548.
[95] Enright R, Miljkovic N, Sprittles J, Nolan K, Mitchell R, Wang E N. ACS Nano, 2014, 8(10):10352.
[96] Wang N, Xiong D, Lu Y, Pan S, Wang K, Deng Y, Shi Y. Journal of Physical Chemistry C, 2016, 120(20):11054.
[97] Schellenberger F, Xie J, Encinas N, Encinas N, Hardy A, Klapper M, Papadopoulos P, Butt H J, Vollmer D. Soft Matter, 2015, 11(38):7617.
[98] Anand S, Paxson A T, Dhiman R, Smith J D, Varanasi K K. ACS Nano, 2012,6(11):10122.
[99] Yin X, Zhang,Y, Wang D, Liu Z, Liu Y, Pei X, Yu B,Zhou F. Advanced Functional Materials, 2015, 25(27):4237.
[100] Kim P, Wong T S, Alvarenga J, Kreder M J, W E Martinez, Aizenberg J. ACS Nano, 2012, 6(8):6569.
[101] Nitsch K.Journal of Thermal Analysis and Calorimetry, 2009, 95(1):11.
[102] Walford M E R,Hargeraves D M,Stuart-Smith S. Journal of Glaciology, 1991, 125(37):47.
[103] Wang J T, Liu Z L, Gou Y J, Zhang X H, Cheng S Y.Science in China Series E:Technological Sciences, 2006, 49(5):590.
[104] Snoeijer J H, Brunet P. American Journal of Physics, 2012, 80(9):764.
[105] 黄玲艳(Huang L Y),刘中良(Liu Z L),刘耀民(Liu Y M), 勾昱君(Gou Y J).工程热物理学报(Journal of Engineering Thermophysics), 2010, 31(4):647.
[106] 黄玲艳(Huang L Y), 刘中良(Liu Z L),勾昱君(Gou Y J),刘耀民(Liu Y M).工程热物理学报(Journal of Engineering Thermophysics), 2012, 33(6):1009.
[107] Jin Z Y, Jin S Y, Yang Z G.. Journal of Visualization, 2013, 16(1):13.
[108] 张帆(Chen F),陈凤(Chen F),薄涵亮(Bo H L).原子能科学技术(Atomic Energy Science and Technology), 2015, 49(zl):288.
[109] Faryar T, Kavehpour H P. Langmuir, 2015, 31:2120.
[110] Koji F, Tsuyoshi K. Journal of Adhesion Science and Technology, 2012, 26:463.
[111] Wang F, Li C, Lv Y, Lv F, Du Y.Cold Regions Science and Technology, 2010, 62(1):29.
[112] Peng C, Xing S,Yuan Z,Xiao J, Wang C, Zeng J. Applied Surface Science, 2012, 259:764.
[113] Arianpour F, Farzaneh M,Kulinich S. Applied Surface Science, 2012, 265:546.
[114] Boinovich L, Emelyanenko A M, Korolev V V, Pashinin A S. Langmuir, 2014, 30(6):1659.
[115] Shin B, Lee K R, Moon M W, Kim H Y. Soft Matter, 2012, 8(6):1817.
[116] Mu C, Pang J, Lu Q, Liu T. Chemical Engineering Science, 2008, 63(4):874.
[117] Suzuki S, Nakajim A, Yoshida N,Sakai M, Hashimoto A, Kameshima, Okada K.Langmuir, 2007, 23(17):8674.
[118] Guo P, Zheng Y, Wen M,Cheng S, Lin Y, Jiang L. Advanced Materials, 2012, 24(19):2642.
[119] Leng M, Chang S, Yuan Z. SAE Technical Paper 2015-01-2157, 2015, DOI:10.4271/2015-01-2157.
[120] 冷梦尧(Leng M Y),常士楠(Chang S N),丁亮(Ding L).化工学报(CIESC Journal), 2016,67(7):2784.
[121] Yang G, Guo K, Li N. International Journal of Refrigeration, 2011, 34(8):2007.
[122] Heydari G, Thormann E, Jarn M, Tyrode E, Claesson P M. The Journal of Physical Chemistry C, 2013, 117(42):21752.
[123] Li H, Roisman I V, Tropea C. Experiments in Fluids, 2015, 56(6):1.
[124] Jung S, Tiwari M K, Doan N V, Poulikakos D. Nature Communications, 2012, 3:299.
[125] Hu J, Xu K, Wu Y, Lan B, Jiang X, Shu L. Applied Surface Science, 2014, 317:534.
[126] 韦存茜(Wei C Q),严杰(Yan J),唐浩(Tang H),张庆华(Zhang Q H),詹晓力(Zhan X L),陈丰秋(Chen F Q).化学进展(Progress in Chemistry), 2016, (1):9.
[127] Sun X, Damle V G, Uppal A, Linder R, Chandrashekar S, Mohan A R, Rykaczewski K. Langmuir, 2015, 31(51):13743.
[128] Wilson P W, Lu W, Xu H,Kim P, Kreder M J, Alvarenga J, Aizenberg J. Physical Chemistry Chemical Physics, 2013,15(2):581.
[129] Makkonen L. Journal of Adhesion Science & Technology, 2012, 26(4):413.
[130] Xiu Y, Zhu L, Hess D W, Wong C P. Journal of Physical Chemistry C, 2008, 112(30):11403.
[131] Susoff M, Siegmann K, Pfaffenroth C, Hirayama M. Applied Surface Science, 2013, 282(10):870.
[132] Kulinich S A, Farzaneh M. Langmuir, 2009, 25(16):8854.
[133] Davis A, Yeong Y H, Steele A, Bayer I S, Loth E. ACS Applied Materials & Interfaces, 2014, 6(12):9272.
[134] Yuan Z, Wang M, Huang J, Wang X, Bin J, Peng C, Xing S, Xiao J, Zeng J, Xiao X, Fu X, Gong H, Zhao D, Chen H. Surface Topography Metrology & Properties, 2015, 3(2):025001.
[135] Mobarakeh F L, Jafari R, Farzaneh M.Applied Surface Science, 2013, 284:459.
[136] Momen G., Jafari R, Farzaneh M. Applied Surface Science, 2015, 349:211.
[137] Smith J D, Dhiman R, Anand S, Rezagarduno E, Cohen R E, Mckinley G H, Varanasi K K. Soft Matter, 2012, 9(6):1772.
[138] Subramanyam S B, Rykaczewski K, Varanasi K K. Langmuir, 2013, 29(44):13414.
[139] Ozbay S, Yüceel C, Erbil H Y. Acs Applied Materials & Interfaces, 2015, 7(39):22067.
[140] Jing C, Dou R, Cui D, Zhang Q, Zhang Y, Xu F, Zhou X, Wang J, Song Y, Jiang L. ACS Applied Materials & Interfaces, 2013, 5(10):4026.
[141] Chen H, Zhang P, Zhang L,Liu H, Jiang Y, Zhang D, Han z, Jiang L. Nature, 2016, 532(7597):85.
[142] Sojoudi H, Wang M, Boscher N D, Mckinley G H, Gleason K K. Soft Matter, 2016,12(66):1271.
[143] Bird J C, Dhiman R, Kwon H M, Varanasi K K. Nature, 2013, 503(7476):385.
[144] Liu Y, Moevius L, Xu X, Qian T, Yeomans J M, Wang Z. Nature Physics, 2014, 10(7):515.
[145] Kevin G, Kobaku S P R, Hyun L D, Diloreto E T, Mabry J M, Anish T. Science Advances, 2016, 2(3):1501496.
[146] Lu Y, Sathasivam S, Song J, Crick C R, Carmalt C J, Parkin I P. Science, 2015, 347(6226):1132.
[147] Cui J, Daniel D, Grinthal A, Lin K, Aizenberg J. Nat. Mater., 2015, 14:790.
[148] Sun X, Damle V G, Liu S, Rykaczewski K. Advanced Materials Interfaces, 2015, 2(5):140079.
[149] Elsharkawy M, Tortorella D, Kapatral S, Megaridis C M. Langmuir, 2016, 32:4278.
[150] Kovalchuk A, Tour J M. ACS Applied Materials & Interfaces, 2015, 7(47):26079.
[1] Xiaoguang Li, Xianglong Pang. Liquid Plasticines: Attributive Characters, Preparation Strategies and Application Explorations [J]. Progress in Chemistry, 2022, 34(8): 1760-1771.
[2] Wu Mingming, Lin Kaige, Aydengul Muhyati, Chen Cheng. Research on the Construction and Application of Superwetting Materials with Photothermal Effect [J]. Progress in Chemistry, 2022, 34(10): 2302-2315.
[3] Cuiping Zhou, Qiming Liu, Xuan Zhao, Chunsheng Li, Hui Li, Shuxiang Zhang. The Preparation and Anti-Icing Properties of Flexible Surfaces [J]. Progress in Chemistry, 2019, 31(7): 1056-1066.
[4] An Guangming, Ling Shiquan, Wang Zhiwei, Luan Lin, Wu Tianzhun. Fabrication and Application of Ultra-Slippery Surfaces Based on Liquid Infusion in Micro/Nano Structure [J]. Progress in Chemistry, 2015, 27(12): 1705-1713.
[5] Zhang Kaiqiang, Li Bo, Zhao Yunhui, Li Hui, Yuan Xiaoyan. Functional POSS-Containing Polymers and Their Applications [J]. Progress in Chemistry, 2014, 26(0203): 394-402.
[6] Yan Yingdi, Luo Nengzhen, Xiang Xiangao, Xu Yiming, Zhang Qinghua, Zhan Xiaoli. Fabricating Mechanism and Preparation of Anti-Icing & Icephobic Coating [J]. Progress in Chemistry, 2014, 26(01): 214-222.
[7] Li Hui, Zhao Yunhui, Yuan Xiaoyan. Anti-Icing Coatings: From Surface Chemistry to Functional Surfaces [J]. Progress in Chemistry, 2012, 24(11): 2087-2096.
[8] Jianhai Xu,Mei Li,Yan Zhao,Qinghua Lu**. Advanced of Wetting Behavior Research on the Superhydrophobic Surface with Micro- and Nano-Structures [J]. Progress in Chemistry, 2006, 18(11): 1425-1433.