[1]PARK E J, YOON H S, KIM D H, et al. Preparation of Self-cleaning Surfaces with a Dual Functionality of Superhydrophobicity and Photocatalytic Activity[J]. Applied Surface Science,2014,319:367-371.
[2]ZHENG Shunli, LI Cheng, FU Qitao, et al. Fabrication of Self-cleaning Superhydrophobic Surface on Aluminum Alloys with Excellent Corrosion Resistance[J]. Surface & Coatings Technology,2015,276:341-348.
[3]LI Wei, KANG Zhixin. Fabrication of Corrosion Resistant Superhydrophobic Surface with Self-cleaning Property on Magnesium Alloy and Its Mechanical Stability[J]. Surface & Coatings Technology,2014,253:205-213.
[4]尚涛, 李涛, 刘先黎, 等. 仿生自清洁金属纤维过滤材料[J]. 吉林大学学报(工学版),2011,41(增刊1):168-172.
SHANG Tao, LI Tao, LIU Xianli, et al. Bionic Self-cleaning Metallic Fibrous Filter[J]. Journal of Jilin University(Engineering and Technology Edition),2011,41(S1):168-172.
[5]LYU S, NYUYEN D C, KIM D, et al. Experimental Drag Reduction Study of Super-hydrophobic Surface with Dual-scale Structures[J]. Applied Surface Science,2013,286:206-211.
[6]叶霞, 周明, 蔡兰, 等. 超疏水光栅微结构表面减阻试验研究[J]. 中国机械工程,2007,18(23):2779-2885.
YE Xia, ZHOU Ming, CAI Lan, et al.Experimental Study on the Drag Reduction of the Superhydrop-hobic Surface with Grating Microstructures[J]. China Mechanical Engineering,2007,18(23):2779-2885.
[7]钱鸿昌,李海扬,张达威. 超疏水表面技术在腐蚀防护领域中的研究进展[J]. 表面技术,2015,44(3):15-24.
QIAN Hongchang, LI Haiyang, ZHANG Dawei. Research Progress of Superhydrophobic Surface Technologies in the Field of Corrosion Protection[J]. Surface Technology,2015,44(3):15-24.
[8]SHI Yanlong, YANG Wu, BAI Jiajing, et al. Fabrication of Flower-like Copper Film with Reversible Superhydrophobicity-superhydrophilicity and Anticorrosion Properties[J]. Surface & Coatings Technology,2014,253:148-153.
[9]陈恒真, 耿铁, 张霞, 等. 超疏水表面研究进展[J].化学研究,2013,27(4):434-440.
CHEN Hengzhen, GENG Tie, ZHANG Xia, et al. Research Progress of Superhydrophobic Surface[J]. Chemical Research,2013,27(4):434-440.
[10]邱宇辰, 刘克松, 江雷. 花生叶表面的高黏附超疏水特性研究及其仿生制备[J]. 中国科学: 化学,2011,41 (2):403-408.
QIU Yuchen, LIU Kesong, JIANG Lei. Peanut Leaves with High Adhesive Superhydrophobicity and Their Biomimetic Materials[J]. Scientia Sinica Chimica,2011,41(2):403-408.
[11]SONG X, ZHAI J, WANG Y, et al. Fabrication of Superhydrophobic Surfaces by Self-assembly and Their Water-adhesion Properties[J]. Journal of Physical Chemistry B,2005,109(9):4048-4052.
[12]SHIRTCLIFFE N J, MCGALE G, NEWTON M I, et al. Wetting and Wetting Transitions on Copper-based Super-hydrophobic Surfaces[J]. Langmuir,2005,21(3):937-943.
[13]连峰, 王增勇, 张会臣. 疏水/超疏水船用铝合金表面制备及其耐久性[J]. 材料工程,2015,43(1):49-53.
LIAN Feng, WANG Zengyong, ZHANG Huichen. Preparation of Hydrophobic/Superhydrophobic Warship Aluminium Alloy Surface and Its Durabi-lity[J]. Journal of Materials Engineering,2015,43(1):49-53.
[14]余斌, 吴学忠, 肖定邦. 仿生超疏水表面技术及其军事应用[J]. 国防科技,2015,36(5):42-45.
YU Bin, WU Xuezhong, XIAO Dingbang. The Bionic Superhydrophobic Surface Technology and Its Military Application[J]. National Defense Science & Technology,2015,36(5):42-45.
[15]陈俊, 王振辉, 王玮, 等.超疏水表面材料的制备与应用[J]. 中国材料进展,2013,32(7):399-405.
CHEN Jun, WANG Zhenhui, WANG Wei, et al. Preparation and Application of Super-hydrophobic Surfaces[J]. Materials China,2013,32(7):399-405.
[16]WENZEL R N. Resistance of Solid Surfaces to Wetting by Water [J]. Industrial & Engineering Chemistry,1936,28:988-994.
[17]CASSIE A B D, BAXTER S. Wettability of Porous Surfaces [J]. Transactions of the Faraday Society,1944,40:546-550.
[18]CAO P G, YAO J L, ZHENG J W. Comparative Study of Inhibition Effects of Benzotriazole for Metals in Neutral Solutions as Observed with Surface-enhanced Raman Spectroscopy [J]. Langmuir,2002,18(1):100-104. |