344 工程科学学报，第43卷，第3期 [42]Zheng Z H,Liu Y,Bai Y,et al.Fabrication of biomimetic preparing mechanically stable anti-corrosive superhydrophobic hydrophobic patterned graphene surface with ecofriendly anti- coating based on electrochemically exfoliated graphene.Colloids corrosion properties for Al alloy.Colloids SurfA,2016,500:64 S时4,2017,513：396 [43]Ong C C,Saheed M S M,Mohamed N M,et al.Highly [58]Liu Y,Zhang J J,Li S Y,et al.Fabrication of a superhydrophobic hydrophobic 3D graphene-carbon nanotubes composite film for oil graphene surface with excellent mechanical abrasion and corrosion absorption.Mater Today Proc,2019,16:1772 resistance on an aluminum alloy substrate.RSCAdv,2014,4(85): [44]Li YL.Luong D X,Zhang J B.et al.Laser-induced graphene in 45389 controlled atmospheres:from superhydrophilic to superhydro- [59]Chen NN,Wang Y H,Zhong L,et al.Anticorrosion performance phobic surfaces.Adv Mater,2017,29(27):1700496 of super-hydrophobic complex film of graphene/stearic acid on [45]Nasser J,Lin JJ,Zhang LS,et al.Laser induced graphene printing AZ91 Mg-alloy.J Mater Res,2017,31(10):751 of spatially controlled super-hydrophobic/hydrophilic surfaces (陈宁宁，王燕华，钟莲，等.石墨烯/硬脂酸超疏水复合膜层的防 Carbon,2020,162:570 腐性能.材料研究学报，2017,31(10)：751) [46]Wu W B,Liang R X,Lu L S,et al.Preparation of [60]Wang Y.Yu Y,Hu X B,et al.p-phenylenediamine strengthened superhydrophobic laser-induced graphene using taro leaf structure graphene oxide for the fabrication of superhydrophobic surface. as templates.Surf Coat Technol,2020,393:125744 Mater Des,2017,127:22 [47]Wang J N.Shao R Q.Zhang Y L,et al.Biomimetic graphene [61]Zhang Y Q,He S J,Hu J X,et al.Robust super- surfaces with superhydrophobicity and iridescence.Chem AsianJ, hydrophobic/super-oleophilic sandwich-like UIO-66-F@rGO 2012,7(2:301 composites for efficient and multitasking oil/water separation [48]Song YY,Liu Y,Jiang H B,et al.Biomimetic super hydrophobic applications.J Hazard Mater,2020,388:121752 structured graphene on stainless steel surface by laser processing [62]Sin YY,Huang CC,Lin C N,et al.Ultrastrong adhesion of and transfer technology.SurfCoat Technol,2017,328:152 fluorinated graphene on a substrate:In situ electrochemical [49]Wan Y L,Cui P,Xu L N,et al.Anti-icing performance of micro- conversion to ionic-covalent bonding at the interface.Carbon, nano composite texture based on image processing technology 2020,169:248 Surf Technol,2019,48(8):54 [63]Wang P,Yao T,Li Z Q,et al.A superhydrophobic/electrothermal (弯艳玲，崔普，徐丽宁，等.基于图像处理技术界定微纳复合织 synergistically anti-icing strategy based on graphene composite 构防覆冰性能.表面技术，2019,48(8)：54) Compos Sci Technol,2020,198:108307 [50]Jiang H B,Zhang YL,Han DD,et al.Bioinspired fabrication of [64]Akhtar N,Anemone G,Farias D,et al.Fluorinated graphene superhydrophobic graphene films by two-beam laser interference provides long lasting ice inhibition in high humidity.Carbon 4 ty Funct Mater,,2014,24(29:4720 2019,141:451 [51]Shateri-Khalilabad M,Yazdanshenas M E.Preparation of [65]Das A,Maji K,Naskar S,et al.Facile optimization of hierarchical superhydrophobic electroconductive graphene-coated cotton topography and chemistry on magnetically active graphene oxide cellulose.Cellulose.2013.20(2):963 nanosheets.Chem Sci,2020,11(25):6556 [52]Zhang X T,Liu D Y,Ma Y L,et al.Super-hydrophobic graphene [66]Sadeghian Z,Hadidi M R.Salehzadeh D,et al.Hydrophobic coated polyurethane (GN@PU)sponge with great oil-water octadecylamine-functionalized graphene/TiO,hybrid coating for separation performance.Appl Surf Sci,2017,422:116 corrosion protection of copper bipolar plates in simulated proton [53]Peng M,Chen G Q,Zeng G M,et al.Superhydrophobic kaolinite exchange membrane fuel cell environment.Int J Hydrogen modified graphene oxide-melamine sponge with excellent Energy,2020,45(30):15380 properties for oil-water separation.App/Clay Sci,2018,163:63 [67]Asaldoust S,Hosseini M S,Ramezanzadeh B,et al.Construction [54]La C J,Wang HY,Liu ZJ,et al.Fabrication of durable fluorine- of a unique anti-corrosion nanocomposite based on graphene free polyphenylene sulfide/silicone resin composite superhydro- oxide@Zn;PO/epoxy;experimental characterization and detailed- phobic coating enhanced by carbon nanotubes/graphene fillers. theoretical quantum mechanics(QM)investigations.Constr Build Prog Org Coat,2019,134:1 Mater,.2020,256:119439 [55]Uzoma P C,Liu F C,Xu L,et al.Superhydrophobicity, [68]Ouadil B,Amadine O,Essamlali Y,et al.A new route for the conductivity and anticorrosion of robust siloxane-acrylic coatings preparation of hydrophobic and antibacterial textiles fabrics using modified with graphene nanosheets.Prog Org Coat,2019,127: Ag-loaded graphene nanocomposite.Colloids Surf A,2019,579: 239 123713 [56]Zhang X G,Liu Z J,Li Y,et al.Robust superhydrophobic epoxy [69]Jiang N,Wang Y L,Chan K C,et al.Additive manufactured composite coating prepared by dual interfacial enhancement.Chem graphene coating with synergistic photothermal and EgJ,2019,371:276 superhydrophobic effects for bactericidal applications.Global [57]Wang P,Yao T,Sun B,et al.A cost-effective method for Challenges,2019,4(1):1900054Zheng  Z  H,  Liu  Y,  Bai  Y,  et  al.  Fabrication  of  biomimetic hydrophobic  patterned  graphene  surface  with  ecofriendly  anti￾corrosion properties for Al alloy. Colloids Surf A, 2016, 500: 64 [42] Ong  C  C,  Saheed  M  S  M,  Mohamed  N  M,  et  al.  Highly hydrophobic 3D graphene-carbon nanotubes composite film for oil absorption. Mater Today Proc, 2019, 16: 1772 [43] Li Y L, Luong D X, Zhang J B, et al. Laser-induced graphene in controlled  atmospheres:  from  superhydrophilic  to  superhydro￾phobic surfaces. Adv Mater, 2017, 29（27）: 1700496 [44] Nasser J, Lin J J, Zhang L S, et al. Laser induced graphene printing of  spatially  controlled  super-hydrophobic/hydrophilic  surfaces. Carbon, 2020, 162: 570 [45] Wu  W  B,  Liang  R  X,  Lu  L  S,  et  al.  Preparation  of superhydrophobic laser-induced graphene using taro leaf structure as templates. Surf Coat Technol, 2020, 393: 125744 [46] Wang  J  N,  Shao  R  Q,  Zhang  Y  L,  et  al.  Biomimetic  graphene surfaces with superhydrophobicity and iridescence. Chem Asian J, 2012, 7（2）: 301 [47] Song Y Y, Liu Y, Jiang H B, et al. Biomimetic super hydrophobic structured  graphene  on  stainless  steel  surface  by  laser  processing and transfer technology. Surf Coat Technol, 2017, 328: 152 [48] Wan Y L, Cui P, Xu L N, et al. Anti-icing performance of micro￾nano  composite  texture  based  on  image  processing  technology. Surf Technol, 2019, 48（8）: 54 （弯艳玲, 崔普, 徐丽宁, 等. 基于图像处理技术界定微纳复合织 构防覆冰性能. 表面技术, 2019, 48（8）：54） [49] Jiang H B, Zhang Y L, Han D D, et al. Bioinspired fabrication of superhydrophobic graphene films by two-beam laser interference. Adv Funct Mater, 2014, 24（29）: 4720 [50] Shateri-Khalilabad  M,  Yazdanshenas  M  E.  Preparation  of superhydrophobic  electroconductive  graphene-coated  cotton cellulose. Cellulose, 2013, 20（2）: 963 [51] Zhang X T, Liu D Y, Ma Y L, et al. Super-hydrophobic graphene coated  polyurethane  (GN@PU)  sponge  with  great  oil-water separation performance. Appl Surf Sci, 2017, 422: 116 [52] Peng M, Chen G Q, Zeng G M, et al. Superhydrophobic kaolinite modified  graphene  oxide-melamine  sponge  with  excellent properties for oil-water separation. Appl Clay Sci, 2018, 163: 63 [53] Lü C J, Wang H Y, Liu Z J, et al. Fabrication of durable fluorine￾free  polyphenylene  sulfide/silicone  resin  composite  superhydro￾phobic  coating  enhanced  by  carbon  nanotubes/graphene  fillers. Prog Org Coat, 2019, 134: 1 [54] Uzoma  P  C,  Liu  F  C,  Xu  L,  et  al.  Superhydrophobicity, conductivity and anticorrosion of robust siloxane-acrylic coatings modified  with  graphene  nanosheets. Prog Org Coat,  2019,  127: 239 [55] Zhang X G, Liu Z J, Li Y, et al. Robust superhydrophobic epoxy composite coating prepared by dual interfacial enhancement. Chem Eng J, 2019, 371: 276 [56] [57] Wang  P,  Yao  T,  Sun  B,  et  al.  A  cost-effective  method  for preparing  mechanically  stable  anti-corrosive  superhydrophobic coating  based  on  electrochemically  exfoliated  graphene. Colloids Surf A, 2017, 513: 396 Liu Y, Zhang J J, Li S Y, et al. Fabrication of a superhydrophobic graphene surface with excellent mechanical abrasion and corrosion resistance on an aluminum alloy substrate. RSC Adv, 2014, 4（85）: 45389 [58] Chen N N, Wang Y H, Zhong L, et al. Anticorrosion performance of  super-hydrophobic  complex  film  of  graphene/stearic  acid  on AZ91 Mg-alloy. J Mater Res, 2017, 31（10）: 751 （陈宁宁, 王燕华, 钟莲, 等. 石墨烯/硬脂酸超疏水复合膜层的防 腐性能. 材料研究学报, 2017, 31（10）：751） [59] Wang Y, Yu Y, Hu X B, et al. p-phenylenediamine strengthened graphene  oxide  for  the  fabrication  of  superhydrophobic  surface. Mater Des, 2017, 127: 22 [60] Zhang  Y  Q,  He  S  J,  Hu  J  X,  et  al.  Robust  super￾hydrophobic/super-oleophilic  sandwich-like  UIO-66-F4@rGO composites  for  efficient  and  multitasking  oil/water  separation applications. J Hazard Mater, 2020, 388: 121752 [61] Sin  Y  Y,  Huang  C  C,  Lin  C  N,  et  al.  Ultrastrong  adhesion  of fluorinated  graphene  on  a  substrate: In situ electrochemical conversion  to  ionic-covalent  bonding  at  the  interface. Carbon, 2020, 169: 248 [62] Wang P, Yao T, Li Z Q, et al. A superhydrophobic/electrothermal synergistically  anti-icing  strategy  based  on  graphene  composite. Compos Sci Technol, 2020, 198: 108307 [63] Akhtar  N,  Anemone  G,  Farias  D,  et  al.  Fluorinated  graphene provides  long  lasting  ice  inhibition  in  high  humidity. Carbon, 2019, 141: 451 [64] Das A, Maji K, Naskar S, et al. Facile optimization of hierarchical topography and chemistry on magnetically active graphene oxide nanosheets. Chem Sci, 2020, 11（25）: 6556 [65] Sadeghian  Z,  Hadidi  M  R,  Salehzadeh  D,  et  al.  Hydrophobic octadecylamine-functionalized  graphene/TiO2 hybrid  coating  for corrosion  protection  of  copper  bipolar  plates  in  simulated  proton exchange  membrane  fuel  cell  environment. Int J Hydrogen Energy, 2020, 45（30）: 15380 [66] Asaldoust S, Hosseini M S, Ramezanzadeh B, et al. Construction of  a  unique  anti-corrosion  nanocomposite  based  on  graphene oxide@Zn3PO4 /epoxy; experimental characterization and detailed￾theoretical quantum mechanics (QM) investigations. Constr Build Mater, 2020, 256: 119439 [67] Ouadil  B,  Amadine  O,  Essamlali  Y,  et  al.  A  new  route  for  the preparation of hydrophobic and antibacterial textiles fabrics using Ag-loaded  graphene  nanocomposite. Colloids Surf A,  2019,  579: 123713 [68] Jiang  N,  Wang  Y  L,  Chan  K  C,  et  al.  Additive  manufactured graphene  coating  with  synergistic  photothermal  and superhydrophobic  effects  for  bactericidal  applications. Global Challenges, 2019, 4（1）: 1900054 [69] · 344 · 工程科学学报，第 43 卷，第 3 期