Page 52 - 《精细化工》2021年第11期
P. 52

·2198·                            精细化工   FINE CHEMICALS                                 第 38 卷

                 Engineering Chemistry Research, 2019, 58(14): 5490-5500.   fluorosilane modification[J]. Chinese Journal  of Chemical Physics,
            [31]  WU X H, FU Q T, KUMAR D,  et al. Mechanically robust   2020, 33(3): 343-348.
                 superhydrophobic and superoleophobic coatings derived by sol-gel   [46]  ZHONG X M, WYMAN L, YANG H, et al. Preparation of robust
                 method[J]. Materials & Design, 2016, 89: 1302-1309.   anti-smudge coatings  via electrophoretic deposition[J]. Chemical
            [32]  LEE S Y, RAHMAWAN Y,  YANG S. Transparent and    Engineering Journal, 2016, 302: 744-751.
                 superamphiphobic surfaces from mushroom-like micropillar arrays[J].   [47]  CHEN T  C,  YAN W, LIU H T,  et al. Facile preparation of
                 ACS Applied Materials & Interfaces, 2015, 7(43): 24197-24203.   superamphiphobic  phosphate-Cu coating on iron  substrate with
            [33]  LIAN F (连峰),  WANG Z Y (王增勇), ZHANG H C (张会臣).   mechanical stability, anti-frosting properties, and corrosion resistance[J].
                 Tribological performance of amphiphobic aluminum  alloy surface   Journal of Materials Science, 2017, 52(8): 4675-4688.
                 under water/oil lubrication[J]. Journal of Mechanical Engineering (机  [48]  QING Y  Q,  HU C  B, YANG C N,  et al. Rough structure of
                 械工程学报), 2016, 52(11): 115-120.                    electrodeposition as a template for an ultrarobust self-cleaning
            [34]  MA M M (马明明), LIAN F (连峰), ZANG  L P (臧路苹),  et al.   surface[J]. ACS Applied Materials & Interfaces, 2017, 9(19): 16571-
                 Effect of dimple depth on friction propertis of aluminum alloy under   16580.
                 different lubrication conditions[J]. Acta Metallurgica Sinica (金属学  [49] ŠVORČÍK V, KOTÁL V, SLEPIČKA P,  et al. Gold coating of
                 报), 2017, 53(4): 406-414.                         polyethylene modified by argon plasma discharge[J]. Polymer
            [35]  WANG D H, SUN Q Q, HOKKANEN M J, et al. Design of robust   Engineering & Science, 2010, 46(9): 1326-1332.
                 superhydrophobic surfaces[J]. Nature, 2020, 582(7810): 55-59.   [50]  YAO W H, KANG Y J, PARK S G, et al. Development of a robust,
            [36]  XU Z  Q, QI H B, CHENG  Y Y,  et al. Nanocoating:  Anti-icing   self-cleaning, amphiphobic, and electrically conductive coating on a
                 superamphiphobic surface on 1060 aluminum alloy mesh[J]. Applied   flexible polymer substrate[J]. Materials & Design, 2019, 182: 108023.
                 Surface Science, 2019, 498: 143827.           [51]  YAO W H, LI L, LI O L, et al. Robust, self-cleaning, amphiphobic
            [37]  ZHAO  Z E, SUN  S H, HU  Y M,  et al. Robust  superamphiphobic   coating with flower-like nanostructure on micro-patterned polymer
                 aluminum surfaces: Fabrication and investigation[J]. Journal of   substrate[J]. Chemical Engineering Journal, 2018, 352: 173-181.
                 Coatings Technology and Research, 2019, 16(6): 1707-1714.   [52]  LEE S E, KIM H J, LEE S H, et al. Superamphiphobic surface by
            [38]  CAI L, QING Y Q, KAI A, et al. Superwettable bulk Janus materials   nanotransfer molding and  isotropic  etching[J]. Langmuir, 2013,
                 with mechanical robustness and underwater self-cleaning action[J].   29(25): 8070-8075.
                 Chemical Engineering Journal, 2020, 385: 123920.   [53]  WU Y, ZENG J, SI Y S, et al. Large-area preparation of robust and
            [39]  BAO X H, MING P M, ZHANG X M, et al. Facile preparation of   transparent superomniphobic polymer films[J]. ACS Nano, 2018,
                 robust superamphiphobic surface by electrochemical etching process   12(10): 10338-10346.
                 based on the SiC/Al composites[J]. Journal of  the Electrochemical   [54]  QING Y Q, CAI L, KAI A, et al. Sandpaper as template for a robust
                 Society, 2018, 165: E563-E571.                    superhydrophobic surface with self-cleaning and anti-snow/icing
            [40]  YIN K, DU H F, LUO Z, et al. Multifunctional micro/nano-patterned   performances[J]. Journal of Colloid and Interface Science, 2019, 548:
                 PTFE near-superamphiphobic surfaces achieved by a femtosecond   224-232.
                 laser[J]. Surface & Coatings Technology, 2018, 345: 53-60.   [55]  GANESH V A,  DINACHALI S S, NAIR A S,  et al. Robust
            [41] WANG L (王莉), YAN C P (严诚平), WANG Q D (王权岱), et al.   superamphiphobic film from  electrospun  TiO 2 nanostructures[J].
                 Study on tribological properties of the amphiphobic textured metal   ACS Applied Materials & Interfaces, 2013, 5(5): 1527-1532.
                 surface[J]. Journal of Huazhong University of Science and Technology   [56]  WANG H,  CHI G X, JIA Y C, et  al. A novel combination of
                 (Natural Science Edition) (华中科技大学学报), 2012, 40(S2): 21-25,   electrical  discharge  machining  and  electrodeposition  for
                 43.                                               superamphiphobic metallic surface fabrication[J]. Applied Surface
            [42]  ZHU  Y, HU Y M, MA L,  et al. Ultra-repellency of  Al surfaces:   Science, 2020, 504: 144285.
                 Design and evaluation[J]. Journal of Coatings Technology and Research,   [57]  XIA B B, LIU H T, FAN Y A, et al. Preparation of robust CuO/TiO 2
                 2018, 15(3): 633-641.                             superamphiphobic steel surface through chemical deposition and
            [43]  LIU Y, DING T, MENG Q, et al. Preparation of stable superamphiph-   sol-gel methods[J]. Advanced Engineering Materials, 2017, 19(2):
                 obic  surfaces on X80  pipeline steel substrates[J]. RSC Advances,   1600572.
                 2016, 6(94): 91669-91678.                     [58]  BARTHWAL S,  KIM Y S, LIM S H. Mechanically robust
            [44]  SHEN J W, MING P M,  ZHANG  X M,  et al. Broad spectrum   superamphiphobic aluminum surface with nanopore-embedded
                 anti-fouling, photocatalytic antibacterial and superamphiphobic coating   microtexture[J]. Langmuir, 2013, 29(38): 11966-11974.
                 fabricated by composite electrodeposition process[J]. Journal of the   [59]  CHEN J Q, LONG M  Y, PENG  S, et al. Superamphiphobic
                 Electrochemical Society, 2019, 166(16): E564-E575.   aluminum surfaces that maintain  robust stability after undergoing
            [45]  LIU  W Y, LUO  M F,  LUO F,  et al. Three-dimensional  Cu-Ni   severe chemical and physical damage[J]. New Journal of Chemistry,
                 composite superamphiphobic surface  via  electrodeposition and   2017, 41(3): 1334-1345.
   47   48   49   50   51   52   53   54   55   56   57