[1] Woodward J T,Gwin H,Schwartz D K.Contact angles on surfaces with mesoscopic chemical heterogeneity[J].Langmuir,2000,16(6):2957-2961.
[2] Nishino T,Meguro M,Nakamae K,et al.The lowest surface free energy based on-CF3 alignment[J].Langmuir,1999,15(13):4321-4323.
[3] Wenzel R N.Resistance of solid surfaces to wetting by water[J].Indus-trial & Engineering Chemistry,1936,28(8):988-994.
[4] Wenzel R N.Surface roughness and contact angle[J].Journal of Physi-cal Chemistry,1949,53(9):1466-1467.
[5] Ogihara H,Xie J,Saji T.Factors determining wettability of superhydro-phobic paper prepared by spraying nanoparticle suspensions[J].Col-loids and Surfaces A:Physicochemical and Engineering Aspects,2013,434:35-41.
[6] Boinovich L B,Emelyanenko A M.Hydrophobic materials and coat-ings:Principles of design,properties and applications[J].Russian Chem-ical Reviews,2008,77(7):583.
[7] Parkin I P,Palgrave R G.Self-cleaning coatings[J].Journal of Materi-als Chemistry,2005,15(17):1689-1695.
[8] Crick C R,Parkin I P.A single step route to superhydrophobic surfac-es through aerosol assisted deposition of rough polymer surfaces:dupli-cating the lotus effect[J].Journal of Materials Chemistry,2009,19(8):1074-1076.
[9] Guo F,Su X,Hou G,et al.Bioinspired fabrication of stable and robust superhydrophobic steel surface with hierarchical flowerlike structure[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2012,401:61-67.
[10] 周艳艳,于志家.铝基超疏水表面抗结霜特性研究[J].高校化学工程学报,2012(6):929-933.Zhou Yanyan,Yu Zhijia.The defrosting behavior of the super-hydro-phobic aluminum surfaces[J].Journal of Chemical Engineering of Chi-nese Universities,2012(6):929-933.
[11] 冯杰,卢津强,秦兆倩.超疏水表面抗结冰性能研究进展[J].材料研究学,2012(4):337-343.Feng Jie,Lu Jinqiang,Qin Zhaoqian.Research progress on anti-icing performance of superhydrophobic surfaces[J].Chinese Journal of Mate-rials Research,2012(4):337-343.
[12] Zheng N,Liu K,Li X,et al.Preparation of super-hydrophobic nanosilica aqueous dispersion and study of its application for water resis-tance reduction at low-permeability reservoir[J].Micro & Nano Let-ters,IET,2012,7(6):526-528.
[13] Cui Y,Paxson A T,Smyth K M,et al.Hierarchical polymeric textures via solvent-induced phase transformation:A single-step production of large-area superhydrophobic surfaces[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2012,394:8-13.
[14] Xu X,Zhang Z Z,Yang J.Study on the superhydrophobic poly(meth-yl methacrylate)/silver thiolate composite coating with absorption of UVA light[J].Colloids and Surfaces A:Physicochemical and Engineer-ing Aspects,2010,355(1):163-166.
[15] Young T.An essay on the cohesion of fluids[J].Philosophical Transac-tions of the Royal Society of London,1805:65-87.
[16] Wenzel R N.Resistance of solid surfaces to wetting by water[J].Indus-trial & Engineering Chemistry,1936,28(8):988-994.
[17] Cassie A B D,Baxter S.Wettability of porous surfaces[J].Transac-tions of the Faraday Society,1944,40:546-551.
[18] Olsen D A,Joyner P A,Olson M D.The sliding of liquid drops on sol-id surfaces[J].Journal of Physical Chemistry,1962,66(5):883-886.
[19] De Gennes P G.Wetting:statics and dynamics[J].Reviews of Modern Physics,1985,57(3):827.
[20] 王书良.超疏水木质基表面的仿生合成及其性能研究[D].哈尔滨:东北林业大学,2013.Wang Shuliang.Biomimetic synthesis and performance research of superhydrophobic wooden base surface[D].Harbin:Northeast Forestry University,2013.
[21] 刘明,吴义强,卿彦,等.木材仿生超疏水功能化修饰研究进展[J].功能材料,2015,14:14012-14018.Liu Ming,Wu Yiqiang,Qing Yan,et al.Progress in the reseach of functional modification bionic fabrication of superhydrophobic wood[J].Journal of Functional Materials,2015,14:14012-14018.
[22] Wang S,Liu C,Liu G,et al.Fabrication of superhydrophobic wood surface by a sol-gel process[J].Applied Surface Science,2011,258(2):806-810.
[23] Donath S,Militz H,Mai C.Wood modification with alkoxysilanes[J].Wood Science and Technology,2004,38(7):555-566.
[24] 梁金,吴义强,刘明.溶胶-凝胶原位生长制备超疏水木材[J].中国工程材料,2014,16(4):87-91.Liang Jin,Wu Yiqiang,Liu Ming.Preparation of superhydrophobic wood by an in situ sol-gel process[J].Engineering Sciences,2014,16(4):87-91.
[25] Wang S,Wang C,Liu C,et al.Fabrication of superhydrophobic spheri-cal-like α-FeOOH films on the wood surface by a hydrothermal meth-od[J].Colloids and Surfaces A:Physicochemical and Engineering As-pects,2012,403:29-34.
[26] Liu M,Qing Y,Wu Y,et al.Facile fabrication of superhydrophobic surfaces on wood substrates via a one-step hydrothermal process[J].Applied Surface Science,2015,330:332-338.
[27] Gao L,Lu Y,Zhan X,et al.A robust,anti-acid,and high-tempera-ture-humidity-resistant superhydrophobic surface of wood based on a modified TiO2 film by fluoroalkyl silane[J].Surface and Coatings Tech-nology,2015,262:33-39.
[28] 郑仕远,陈健,潘伟.湿化学方法合成及应用[J].材料导报,2000(9):25-27.Zheng Shiyuan,Chen Jian,Pan Wei.Compositing by Wet-chenmical Method and Its Application[J].Materials Review,2000(9):25-27.
[29] Wang C,Piao C,Lucas C.Synthesis and characterization of superhy-drophobic wood surfaces[J].Journal of Applied Polymer Science,2011,119(3):1667-1672.
[30] Wang S,Shi J,Liu C,et al.Fabrication of a superhydrophobic surface on a wood substrate[J].Applied Surface Science,2011,257(22):9362-9365.
[31] Du X,Li J S,Li L X,et al.Porous poly(2-octyl cyanoacrylate):A fac-ile one-step preparation of superhydrophobic coatings on different sub-strates[J].Journal of Materials Chemistry A,2013,1(4):1026-1029.
[32] 徐滨士,李长久,刘世参,等.表面工程与热喷涂技术及其发展[J].中国表面工程,1998(1):3-9.Xu Binshi,Li Changjiu,Liu Shican,et al.Surface engineering and thermal spraying technology and their developments[J].1998(1):3-9.
[33] Wang C,Zhang M,Xu Y,et al.One-step synthesis of unique silica particles for the fabrication of bionic and stably superhydrophobic coatings on wood surface[J].Advanced Powder Technology,2014,25(2):530-535.
[34] Chu Z,Seeger S.Robust superhydrophobic wood obtained by spraying silicone nanoparticles[J].RSC Advances,2015,5(28):21999-22004.
[35] Hsieh C T,Wu F L,Yang S Y.Superhydrophobicity from composite nano/microstructures:Carbon fabrics coated with silica nanoparticles[J].Surface and Coatings Technology,2008,202(24):6103-6108.
[36] Budunoglu H,Yildirim A,Guler M O,et al.Highly transparent,flexi-ble,and thermally stable superhydrophobic ORMOSIL aerogel thin films[J].ACS Applied Materials & Interfaces,2011,3(2):539-545.
[37] Manoudis P N,Karapanagiotis I,Tsakalof A,et al.Superhydrophobic composite films produced on various substrates[J].Langmuir,2008,24(19):11225-11232.
[38] Liu C,Wang S,Shi J,et al.Fabrication of superhydrophobic wood sur-faces via a solution-immersion process[J].Applied Surface Science,2011,258(2):761-765.
[39] Gao Z,Ma M,Zhai X,et al.Improvement of chemical stability and du-rability of superhydrophobic wood surface via a film of TiO2 coated CaCO3 micro-/nano-composite particles[J].RSC Advances,2015,5(79):63978-63984.
[40] Cai P,Bai N,Xu L,et al.Fabrication of superhydrophobic wood sur-face with enhanced environmental adaptability through a solution-im-mersion process[J].Surface and Coatings Technology,2015,277:262-269.
[41] Liu F,Wang S,Zhang M,et al.Improvement of mechanical robust-ness of the superhydrophobic wood surface by coating PVA/SiO2 com-posite polymer[J].Applied Surface Science,2013,280:686-692.
[42] Liu F,Gao Z,Zang D,et al.Mechanical stability of superhydrophobic epoxy/silica coating for better water resistance of wood[J].Holzforsc-hung,2015,69(3):367-374.
[43] Chang H,Tu K,Wang X,et al.Fabrication of mechanically durable superhydrophobic wood surfaces using polydimethylsiloxane and silica nanoparticles[J].RSC Advances,2015,5(39):30647-30653.
[44] Hui B,Li Y,Huang Q,et al.Fabrication of smart coatings based on wood substrates with photoresponsive behavior and hydrophobic perfor-mance[J].Materials & Design,2015,84:277-284.
[45] Hui B,Wu D,Huang Q,et al.Photoresponsive and wetting perfor-mances of sheet-like nanostructures of tungsten trioxide thin films grown on wood surfaces[J].RSC Advances,2015,5(90):73566-73574.
[46] Gan W,Gao L,Sun Q,et al.Multifunctional wood materials with mag-netic,superhydrophobic and anti-ultraviolet properties[J].Applied Sur-face Science,2015,332:565-572.
[47] Gao L,Lu Y,Li J,et al.Superhydrophobic conductive wood with oil repellency obtained by coating with silver nanoparticles modified by fluoroalkyl silane[J].Holzforschung,2015,70(1):63-68.
[48] Gao Z,Zhai X,Wang C.Facile transformation of superhydrophobicity to hydrophilicity by silica/poly(ε-caprolactone) composite film[J].Applied Surface Science,2015,http://dx.doi.org/10.1016/j.apsusc.2015.09.246.
