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Journal of Materials Science

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26.04.2018 | Composites

Layer-by-layer self-assembly of polycation/GO/OCNTs nanofiltration membrane with enhanced stability and flux

verfasst von: Liyan Liu, Hui Kang, Wei Wang, Zhiwei Xu, Wei Mai, Jing Li, Hanming Lv, Lihuan Zhao, Xiaoming Qian

Erschienen in: Journal of Materials Science | Ausgabe 15/2018

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Abstract

The permeation flux of pure graphene oxide (GO) membrane is low because of its narrow and variable interlayer spacing. To overcome this drawback, a multilayer membrane with sandwich structure was assembled alternately by GO and oxidized carbon nanotubes (OCNTs) on a polyacrylonitrile substrate via a layer-by-layer self-assembly technology. The role of polydimethyl diallyl ammonium chloride (PDDA) was to connect GO and OCNTs. The PDDA/GO/OCNTs multilayers (M_n) consisting of 3, 5, 7 and 9 bilayers were deposited. The performance of nanofiltration membranes can be optimized by adjusting the number of sandwich layers. As the assembled layers increased, obvious fluctuation and fold forms of membrane increased, which was conducive to increase separation performance of composite membrane. Rejection rate for Alphaurine A and water flux of M₇ were 94.42% and 28.53 L m⁻² h⁻¹, respectively, at 3 bar. Meanwhile, M₇ had higher flux compared with the reported literature in which rejection also reached up to 90%. Rejection rate of M₃, M₅, M₇ and M₉ for Alphaurine A remained 50.45, 87.7, 94.5 and 97.1%, respectively, after the 12-h filtration test. Thus, we thought that composite membrane with sandwich structure via layer-by-layer self-assembly technology of GO and OCNTs under the effect of PDDA had excellent stability and high flux.

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Akbari A, Desclaux S, Rouch JC, Aptel P, Remigy JC (2006) New UV-photografted nanofiltration membranes for the treatment of colored textile dye effluents. J Membr Sci 286:342–350CrossRef

Yu L, Zhang Y, Wang Y, Zhang H, Liu J (2015) High flux, positively charged loose nanofiltration membrane by blending with poly (ionic liquid) brushes grafted silica spheres. J Hazard Mater 287:373–383CrossRef

Zhao J, Ge S, Liu L, Shao Q, Mai X, Zhao CX, Hao L, Wu T, Yu Z, Guo Z (2017) Microwave solvothermal fabrication of zirconia hollow microspheres with different morphologies using pollen templates and their dye adsorption removal. Ind Eng Chem Res 58:231–241

Homayoonfal M, Akbari A, Mehrnia MR (2010) Preparation of polysulfone nanofiltration membranes by UV-assisted grafting polymerization for water softening. Desalination 263:217–225CrossRef

Wang Z, Wang J, Li Z, Gong P, Liu X, Zhang L, Ren J, Wang H, Yang S (2012) Synthesis of fluorinated graphene with tunable degree of fluorination. Carbon 50:5403–5410CrossRef

Murthy ZVP, Gaikwad MS (2013) Preparation of chitosan-multiwalled carbon nanotubes blended membranes: characterization and performance in the separation of sodium and magnesium ions. Nanoscale Microscale Thermophys Eng 17:245–262CrossRef

Wang KK, Yan H, Zhao CX, Xu G, Qi Y, Wu Y, Hu NX (2010) Direct method of tracing the wetting states on nanocomposite surfaces. Langmuir ACS J Surf Colloids 26:7686–7689CrossRef

Cheng XQ, Wang ZX, Jiang X, Li T, Lau CH, Guo Z, Ma J, Shao L (2018) Towards sustainable ultrafast molecular-separation membranes: from conventional polymers to emerging materials. Prog Mater Sci 92:258–283CrossRef

Hou Q, Ren J, Chen H, Yang P, Shao Q, Zhao M, Zhao X, He H, Wang N, Luo Q, Guo Z (2018) Synergistic hematite-fullerene electron-extracting layers for improved efficiency and stability in perovskite solar cells. ChemElectroChem 5:1–7CrossRef

10.

Yang F, Wang P, Yang X, Cai Z (2017) Antifogging and anti-frosting coatings by dip-layer-by-layer self-assembly of just triple-layer oppositely charged nanoparticles. Thin Solid Films 634:85–95CrossRef

11.

Shi J, Wu T, Teng K, Wang W, Shan M, Xu Z, Lv H, Deng H (2016) Simultaneous electrospinning and spraying toward branch-like nanofibrous membranes functionalised with carboxylated MWCNTs for dye removal. Mater Lett 166:26–29CrossRef

12.

Huang J, Cao Y, Shao Q, Peng X, Guo Z (2017) Magnetic nanocarbon adsorbents with enhanced hexavalent chromium removal: morphology dependence of fibrillar vs particulate structures. Ind Eng Chem Res 56:10689–10701CrossRef

13.

Wang X, Wang Z, Wang Z, Cao Y, Meng J (2017) Tethering of hyperbranched polyols using PEI as a building block to synthesize antifouling PVDF membranes. Appl Surf Sci 419:546–556CrossRef

14.

Tabatabaie N, Dorranian D (2016) Effect of fluence on carbon nanostructures produced by laser ablation in liquid nitrogen. Appl Phys A 122:1–9CrossRef

15.

Xu Z, Wu T, Shi J, Wang W, Teng K, Qian X, Shan M, Deng H, Tian X, Li C, Li F (2016) Manipulating migration behavior of magnetic graphene oxide via magnetic field induced casting and phase separation toward high-performance hybrid ultrafiltration membranes. ACS Appl Mater Interfaces 8:18418–18429CrossRef

16.

Sun L, Ying Y, Huang H, Song Z, Mao Y, Xu Z, Peng X (2014) Ultrafast molecule separation through layered WS(2) nanosheet membranes. ACS Nano 8:6304–6311CrossRef

17.

Al Aani S, Gomez V, Wright CJ, Hilal N (2017) Fabrication of antibacterial mixed matrix nanocomposite membranes using hybrid nanostructure of silver coated multi-walled carbon nanotubes. Chem Eng J 326:721–736CrossRef

18.

Song B, Wang T, Sun H, Shao Q, Zhao J, Song K, Hao L, Wang L, Guo Z (2017) Two-step hydrothermally synthesized carbon nanodots/WO₃ photocatalysts with enhanced photocatalytic performance. Dalton Trans 46:15769–15777CrossRef

19.

Wang Z, Mi B (2017) Environmental applications of 2D molybdenum disulfide (MoS₂) nanosheets. Environ Sci Technol 51:8229–8244CrossRef

20.

Liu H, Huang W, Yang X, Dai K, Zheng G, Liu C, Shen C, Yan X, Guo J, Guo Z (2016) Organic vapor sensing behaviors of conductive thermoplastic polyurethane–graphene nanocomposites. J Mater Chem C 4:4459–4469CrossRef

21.

Sun K, Xie P, Wang Z, Su T, Shao Q, Ryu J, Zhang X, Guo J, Shankar A, Li J, Fan R, Cao D, Guo Z (2017) Flexible polydimethylsiloxane/multi-walled carbon nanotubes membranous metacomposites with negative permittivity. Polymer 125:50–57CrossRef

22.

Lin X, Choi M, Heo J, Jeong H, Park S, Hong J (2017) Cobweb-inspired superhydrophobic multiscaled gating membrane with embedded network structure for robust water-in-oil emulsion separation. ACS Sustain Chem Eng 5:3448–3455CrossRef

23.

Male U, Shin BK, Huh DS (2017) Coupling of breath figure method with interfacial polymerization: bottom-surface functionalized honeycomb-patterned porous films. Polymer 119:206–211CrossRef

24.

Wang Y, Zhang W, Wu X, Luo C, Wang Q, Li J, Hu L (2017) Conducting polymer coated metal–organic framework nanoparticles: facile synthesis and enhanced electromagnetic absorption properties. Synth Met 228:18–24CrossRef

25.

Joseph N, Ahmadiannamini P, Jishna PS, Volodin A, Vankelecom IFJ (2015) ‘Up-scaling’ potential for polyelectrolyte multilayer membranes. J Membr Sci 492:271–280CrossRef

26.

Hu M, Mi B (2014) Layer-by-layer assembly of graphene oxide membranes via electrostatic interaction. J Membr Sci 469:80–87CrossRef

27.

Koenig SP, Wang L, Pellegrino J, Bunch JS (2012) Selective molecular sieving through porous graphene. Nat Nanotechnol 7:728–732CrossRef

28.

Wang X, Liu X, Yuan H, Liu H, Liu C, Li T, Yan C, Yan X, Shen C, Guo Z (2018) Non-covalently functionalized graphene strengthened poly(vinyl alcohol). Mater Des 139:372–379CrossRef

29.

Xu Z, Zhang J, Shan M, Li Y, Li B, Niu J, Zhou B, Qian X (2014) Organosilane-functionalized graphene oxide for enhanced antifouling and mechanical properties of polyvinylidene fluoride ultrafiltration membranes. J Membr Sci 458:1–13CrossRef

30.

Boukhvalov DW, Katsnelson MI, Son YW (2013) Origin of anomalous water permeation through graphene oxide membrane. Nano Lett 13:3930–3935CrossRef

31.

Xie W, Zhu X, Xu S, Yi S, Guo Z, Kuang J, Deng Y (2017) Cost-effective fabrication of graphene-like nanosheets from natural microcrystalline graphite minerals by liquid oxidation–reduction method. RSC Adv 7:32008–32019CrossRef

32.

Zhao Y, Xu Z, Shan M, Min C, Zhou B, Li Y, Li B, Liu L, Qian X (2013) Effect of graphite oxide and multi-walled carbon nanotubes on the microstructure and performance of PVDF membranes. Sep Purif Technol 103:78–83CrossRef

33.

Ma J, Zhao Y, Xu Z, Min C, Zhou B, Li Y, Li B, Niu J (2013) Role of oxygen-containing groups on MWCNTs in enhanced separation and permeability performance for PVDF hybrid ultrafiltration membranes. Desalination 320:1–9CrossRef

34.

Liu H, Gao J, Huang W, Dai K, Zheng G, Liu C, Shen C, Yan X, Guo J, Guo Z (2016) Electrically conductive strain sensing polyurethane nanocomposites with synergistic carbon nanotubes and graphene bifillers. Nanoscale 8:12977–12989CrossRef

35.

Hu Z, Shao Q, Xu X, Zhang D, Huang Y (2017) Surface initiated grafting of polymer chains on carbon nanotubes via one-step cycloaddition of diarylcarbene. Compos Sci Technol 142:294–301CrossRef

36.

Gao SJ, Qin H, Liu P, Jin J (2015) SWCNT-intercalated GO ultrathin films for ultrafast separation of molecules. J Mater Chem A 3:6649–6654CrossRef

37.

Han Y, Jiang Y, Gao C (2015) High-flux graphene oxide nanofiltration membrane intercalated by carbon nanotubes. ACS Appl Mater Interfaces 7:8147–8155CrossRef

38.

Liang B, Zhang P, Wang J, Qu J, Wang L, Wang X, Guan C, Pan K (2016) Membranes with selective laminar nanochannels of modified reduced graphene oxide for water purification. Carbon 103:94–100CrossRef

39.

Shi C, Chen L, Xu Z, Jiao Y, Li Y, Wang C, Shan M, Wang Z, Guo Q (2012) Monitoring influence of chemical preparation procedure on the structure of graphene nanosheets. Physica E 44:1420–1424CrossRef

40.

Wu T, Zhou B, Zhu T, Shi J, Xu Z, Hu C, Wang J (2015) Facile and low-cost approach towards a PVDF ultrafiltration membrane with enhanced hydrophilicity and antifouling performance via graphene oxide/water-bath coagulation. RSC Adv 5:7880–7889CrossRef

41.

Wang Z, Yu H, Xia J, Zhang F, Li F, Xia Y, Li Y (2012) Novel GO-blended PVDF ultrafiltration membranes. Desalination 299:50–54CrossRef

42.

Zhang J, Xu Z, Shan M, Zhou B, Li Y, Li B, Niu J, Qian X (2013) Synergetic effects of oxidized carbon nanotubes and graphene oxide on fouling control and anti-fouling mechanism of polyvinylidene fluoride ultrafiltration membranes. J Membr Sci 448:81–92CrossRef

43.

Zhang J, Xu Z, Mai W, Min C, Zhou B, Shan M, Li Y, Yang C, Wang Z, Qian X (2013) Improved hydrophilicity, permeability, antifouling and mechanical performance of PVDF composite ultrafiltration membranes tailored by oxidized low-dimensional carbon nanomaterials. J Mater Chem A 1:3101–3111CrossRef

44.

Wang L, Ji S, Wang N, Zhang R, Zhang G, Li J-R (2014) One-step self-assembly fabrication of amphiphilic hyperbranched polymer composite membrane from aqueous emulsion for dye desalination. J Membr Sci 452:143–151CrossRef

45.

Li M, Shi J, Chen C, Li N, Xu Z, Li J, Lv H, Qian X, Jiao X (2017) Optimized permeation and antifouling of PVDF hybrid ultrafiltration membranes: synergistic effect of dispersion and migration for fluorinated graphene oxide. J Nanopart Res 19:114CrossRef

46.

Wang L, Wang N, Li J, Li J, Bian W, Ji S (2016) Layer-by-layer self-assembly of polycation/GO nanofiltration membrane with enhanced stability and fouling resistance. Sep Purif Technol 160:123–131CrossRef

47.

Gao Y, Hu M, Mi B (2014) Membrane surface modification with TiO₂–graphene oxide for enhanced photocatalytic performance. J Membr Sci 455:349–356CrossRef

48.

Choi W, Choi J, Bang J, Lee JH (2013) Layer-by-layer assembly of graphene oxide nanosheets on polyamide membranes for durable reverse-osmosis applications. ACS Appl Mater Interfaces 5:12510–12519CrossRef

49.

Xu XL, Lin FW, Du Y, Zhang X, Wu J, Xu ZK (2016) Graphene oxide nanofiltration membranes stabilized by cationic porphyrin for high salt rejection. ACS Appl Mater Interfaces 8:12588–12593CrossRef

50.

Xu C, Cui A, Xu Y, Fu X (2013) Graphene oxide–TiO₂ composite filtration membranes and their potential application for water purification. Carbon 62:465–471CrossRef

51.

Zhou B, Qian X, Li M, Ma J, Liu L, Hu C, Xu Z, Jiao X (2015) Tailoring the chemical composition and dispersion behavior of fluorinated graphene oxide via CF₄ plasma. J Nanopart Res 17:1–12CrossRef

Titel: Layer-by-layer self-assembly of polycation/GO/OCNTs nanofiltration membrane with enhanced stability and flux
verfasst von: Liyan Liu
Hui Kang
Wei Wang
Zhiwei Xu
Wei Mai
Jing Li
Hanming Lv
Lihuan Zhao
Xiaoming Qian
Publikationsdatum: 26.04.2018
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 15/2018
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-018-2317-1

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