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Journal of Materials Science

Erschienen in:

27.04.2020 | Polymers & biopolymers

Flexible films with wrinkled micro-nano hierarchical structures having stable superhydrophobicity under external loading

Erschienen in: Journal of Materials Science | Ausgabe 22/2020

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Abstract

Flexible films possessing stable superhydrophobicity under external loading have great application potential in the emerging flexible electronics field. The effects of stretching and cyclic bending on superhydrophobicity and conductivity of the flexible films with wrinkled micro-nano hierarchical structures (W-FF) were investigated. Wrinkled micro-nano hierarchical structures were fabricated on a flexible film by pre-stretching, dipping and heating. Owing to that the interwoven network structures were always kept on the upper of the generated cracks and dendritic structures remained unchanged, the W-FF possessed stable superhydrophobicity and conductivity under stretching and cyclic bending. Effects of reaction time on the micro-nano hierarchical structures and superhydrophobicity were investigated. The formation mechanism of stable superhydrophobicity and conductivity of the W-FF under stretching and cyclic bending was studied by the characterization and comparison of the corresponding morphologies. The W-FF showed good motion sensing property when used as a real-time monitoring human motion sensor, such as monitoring facial muscle, wrist and finger movements. This superhydrophobic and conductive flexible film is expected to be applied in flexible electronics field.

Vorheriger Artikel Microstructural effects on central crack formation in hot cross-wedge-rolled high-strength steel parts

Nächster Artikel Effect of the solvent nature on the structure and performance of poly(amide-imide) ultrafiltration membranes

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Quéré D (2008) Wetting and roughness. Annu Rev Mater Res 38:71–99CrossRef

Wang N, Wang Q, Xu SS, Zheng X (2019) Mechanical stability of PDMS-based micro/nanotextured flexible superhydrophobic surfaces under external loading. ACS Appl Mater Interfaces 11:48583–48593CrossRef

Su YW, Ji BH, Zhang K, Gao HJ, Huang YG, Hwang K (2010) Nano to micro structural hierarchy is crucial for stable superhydrophobic and water-repellent surfaces. Langmuir 26:4984–4989CrossRef

Tserepi AD, Vlachopoulou ME, Gogolides E (2006) Nanotexturing of poly(dimethylsiloxane) in plasmas for creating robust super-hydrophobic surfaces. Nanotechnology 17:3977–3983CrossRef

Li H, Yu SR, Hu JH, Yin XL (2019) Modifier-free fabrication of durable superhydrophobic electrodeposited Cu–Zn coating on steel substrate with self-cleaning, anti-corrosion and anti-scaling properties. Appl Surf Sci 481:872–882CrossRef

Fürstner R, Barthlott W, Neinhuis C, Walzel P (2005) Wetting and self-cleaning properties of artificial superhydrophobic surfaces. Langmuir 21:956–961CrossRef

Wang N, Wang Q, Xu SS, Zheng X, Zhang MY (2019) Facile fabrication of amphiphobic surfaces on copper substrates with a mixed modified solution. RSC Adv 9:17366–17372CrossRef

Bixler GD, Theiss A, Bhushan B, Lee SC (2014) Anti-fouling properties of microstructured surfaces bio-inspired by rice leaves and butterfly wings. J Colloid Interface Sci 419:114–133CrossRef

Lu XM, Peng YL, Ge L, Lin RJ, Zhu ZH, Liu SM (2016) Amphiphobic PVDF composite membranes for anti-fouling direct contact membrane distillation. J Membr Sci 505:61–69CrossRef

10.

Wang N, Wang Q, Xu SS, Zheng X (2019) Eco-friendly and safe method of fabricating superhydrophobic surfaces on stainless steel substrates. J Phys Chem C 123:25738–25746CrossRef

11.

Wang N, Wang Q, Xu SS, Zheng X (2019) Fabrication of multifunctional amphiphobic surfaces on copper substrates. Colloids Surf A 577:509–516CrossRef

12.

Xu SS, Wang Q, Wang N, Zheng X (2019) Fabrication of superhydrophobic green surfaces with good self-cleaning, chemical stability and anti-corrosion properties. J Mater Sci 54:13006–13016. https://doi.org/10.1007/s10853-019-03789-x CrossRef

13.

Xu SS, Wang Q, Wang N, Zheng X, Lei LL (2019) Environmentally-friendly fabrication of a recyclable oil–water separation material using copper mesh for immiscible oil/water mixtures. Colloids Surf A 583:124010CrossRef

14.

Chen Q, Leon A, Advincula RC (2015) Inorganic–organic thiol-ene coated mesh for oil/water separation. ACS Appl Mater Interfaces 7:18566–18573CrossRef

15.

Afroj S, Karim N, Wang ZH, Tan SR, He P, Holwill M, Ghazaryan D, Fernando A, Novoselov KS (2019) Engineering graphene flakes for wearable textile sensors via highly scalable and ultrafast yarn dyeing technique. ACS Nano 13:3847–3857CrossRef

16.

Karim N, Afroj S, Tan SR, Novoselov KS, Yeates SG (2019) All inkjet-printed graphene–silver composite ink on textiles for highly conductive wearable electronics applications. Sci Rep UK 9:8035CrossRef

17.

Karim N, Afroj S, Tan SR, He P, Fernando A, Carr C, Novoselov KS (2017) Scalable production of graphene-based wearable e-textiles. ACS Nano 11:12266–12275CrossRef

18.

Abdelkader AM, Karim N, Valles C, Afroj S, Novoselov KS, Yeates SG (2017) Ultraflexible and robust graphene supercapacitors printed on textiles for wearable electronics applications. 2D Mater 4:035016CrossRef

19.

Bayer IS, Caramia V, Fragouli D, Spano F, Cingolani R, Athanassiou A (2012) Electrically conductive and high temperature resistant superhydrophobic composite films from colloidal graphite. J Mater Chem 22:2057–2062CrossRef

20.

Peng M, Liao Z, Qi J, Zhou Z (2010) Nonaligned carbon nanotubes partially embedded in polymer matrixes: a novel route to superhydrophobic conductive surfaces. Langmuir 26:13572–13578CrossRef

21.

Das A, Hayvaci HT, Tiwari MK, Bayer IS, Erricolo D, Megaridis CM (2011) Superhydrophobic and conductive carbon nanofiber/PTFE composite coatings for EMI shielding. J Colloid Interface Sci 353:311–315CrossRef

22.

Ma XH, Shen B, Zhang LH, Liu YF, Zhai WT, Zheng W (2018) Porous superhydrophobic polymer/carbon composites for lightweight and self-cleaning EMI shielding application. Compos Sci Technol 158:86–93CrossRef

23.

Balram A, Santhanagopalan S, Hao B, Yap YK, Meng DD (2016) Electrophoretically-deposited metal-decorated CNT nanoforests with high thermal/electric conductivity and wettability tunable from hydrophilic to superhydrophobic. Adv Funct Mater 26:2571–2579CrossRef

24.

Jin C, Li J, Han S, Wang J, Yao Q, Sun Q (2015) Silver mirror reaction as an approach to construct a durable, robust superhydrophobic surface of bamboo timber with high conductivity. J Alloys Compd 635:300–306CrossRef

25.

Wu MC, Li Y, An N, Sun J (2016) Applied voltage and near-infrared light enable healing of superhydrophobicity loss caused by severe scratches in conductive superhydrophobic films. Adv Funct Mater 26:6777–6784CrossRef

26.

Zhu Y, Zhang J, Zheng Y, Huang Z, Feng L, Jiang L (2006) Stable, superhydrophobic, and conductive polyaniline/polystyrene films for corrosive enviromnents. Adv Funct Mater 16:568–574CrossRef

27.

Li M, Zhai J, Liu H, Song Y, Jiang L, Zhu D (2003) Electrochemical deposition of conductive superhydrophobic zinc oxide thin films. J Phys Chem B 107:9954–9957CrossRef

28.

Tan J, Zhang Z, He Y, Yue Q, Xie Z, Ji H, Sun Y, Shi W, Ge D (2017) Electrochemical synthesis of conductive, superhydrophobic and adhesive polypyrrole-polydopamine nanowires. Synth Met 234:86–94CrossRef

29.

Wang SH, Li XT, Wu JB, Wen WJ, Qi YB (2018) Fabrication of efficient metal halide perovskite solar cells by vacuum thermal evaporation: a progress review. Curr Opin Electrochem 11:130–140CrossRef

30.

Ning T, Xu WG, Lu SX (2011) Fabrication of superhydrophobic surfaces on zinc substrates and their application as effective corrosion barriers. Appl Surf Sci 258:1359–1365CrossRef

31.

Lee J, Chung S, Song H, Kim S, Hong Y (2013) Lateral-crack-free, buckled, inkjet-printed silver electrodes on highly pre-stretched elastomeric substrates. J Phys D Appl Phys 46:105305CrossRef

32.

Wang XL, Hu H, Shen YD, Zhou XC, Zheng ZJ (2011) Stretchable conductors with ultrahigh tensile strain and stable metallic conductance enabled by prestrained polyelectrolyte nanoplatforms. Adv Mater 23:3090–3094CrossRef

33.

Bowden N, Brittain S, EvansAG Hutchinson JW, Whitesides GM (1998) Spontaneous formation of ordered structures in thin films of metals supported on an elastomeric polymer. Nature 393:146–149CrossRef

34.

Hu X, Tang CY, He ZK, Shao H, Xu KQ, Mei J, Lau WM (2017) Highly stretchable superhydrophobic composite coating based on self-adaptive deformation of hierarchical structures. Small 13:1602353CrossRef

35.

Sarkar DK, Saleema N (2010) One-step fabrication process of superhydrophobic green coatings. Surf Coat Technol 204:2483–2486CrossRef

36.

Chen FZ, Song JL, Lu Y, Huang S, Liu X, Sun J, Carmalt CJ, Parkin IP, Xu WJ (2015) Creating robust superamphiphobic coatings for both hard and soft materials. J Mater Chem A 3:20999–21008CrossRef

37.

Wang YB, Wang YM, Zhang WZ, Lu XB (2013) Fast CO₂ sequestration, activation, and catalytic transformation using N-heterocyclic olefins. J Am Chem Soc 135:11996–12003CrossRef

38.

Chen J, Gu B, LeBoeuf EJ, Pan H, Dai S (2002) Spectroscopic characterization of the structural and functional properties of natural organic matter fractions. Chemosphere 48:59–68CrossRef

39.

Guo HL, Wang XF, Qian QY, Wang FB, Xia XH (2009) A green approach to the synthesis of graphene nanosheets. ACS Nano 3:2653–2659CrossRef

40.

Chen J, Mu L, Jiang B, Yin H, Song X, Li A (2015) TG/DSC-FTIR and Py-GC investigation on pyrolysis characteristics of petrochemical wastewater sludge. Bioresour Technol 192:1–10CrossRef

41.

Ganjali ST, Motiee F, Tabatabaie ZG (2014) Correlation between physico-mechanical and rheological properties of rubber compounds based on NR-BR with CC gel content in polybutadiene. Polymer 38:425–433

42.

Ren PG, Yan DX, Ji X, Chen T, Li ZM (2011) Temperature dependence of graphene oxide reduced by hydrazine hydrate. Nanotechnology 22:055705CrossRef

43.

Wei X, Zhong H, Yang Q, Yao E, Zhang Y, Zou H (2019) Studying the mechanisms of natural rubber pyrolysis gas generation using RMD simulations and Tg-FTIR experiments. Convers Manag 189:143–152CrossRef

44.

Suyambulingam GRT, Jeyasubramanian K, Mariappan VK, Veluswamy P, Ikeda H, Krishnamoorthy K (2017) Excellent floating and load bearing properties of superhydrophobic ZnO/copper stearate nanocoating. Chem Eng J 320:468–477CrossRef

45.

Young T (1805) An essay on the cohesion of fluids. Philos Trans R Soc Lond 95:65–87

46.

Wenzel RN (1936) Resistance of solid surfaces to wetting by water. Ind Eng Chem 28:988–994CrossRef

47.

Cassie ABD, Baxter S (1944) Wettability of porous surfaces. Faraday Soc 40:546–551CrossRef

Titel: Flexible films with wrinkled micro-nano hierarchical structures having stable superhydrophobicity under external loading
Publikationsdatum: 27.04.2020
Erschienen in: Journal of Materials Science / Ausgabe 22/2020
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-020-04704-5

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