Graphene oxide membranes using MOF@Chitosan core-shell nanoparticles as dual modulators for dye separation

Xingying Wang; Yongmei Guo; Xiaolei Cui; Zhikun Wang; Zhihan Zhang; Lubomira Tosheva; Hailing Guo

doi:10.20517/cs.2023.60

Chemical Synthesis ›› 2024, Vol. 4 ›› Issue (2) :27 DOI: 10.20517/cs.2023.60

review-article

Graphene oxide membranes using MOF@Chitosan core-shell nanoparticles as dual modulators for dye separation

Author information +

History +

PDF

Abstract

Graphene oxide (GO) membranes hold significant promise for the water purification. However, they also face the problem of structural swelling, which limits their use in water treatment applications. In this work, a novel dual-modulated core-shell metal-organic framework@Chitosan (MOF@CS) was successfully synthesized and used as an intercalation cross-linker to optimize the interlayer spacing and stability of GO membranes. Molecular dynamics simulation confirms that MOF@CS, acting as an intercalator, accelerates the water diffusion rate within the channels of the GO layer compared to a pure GO layer. At the same time, Fourier Transform Infrared Spectroscopy analysis reveals that MOF@CS serves as a cross-linker for covalently cross-linking the GO layer. The nanofiltration performance and stability of the improved MOF@CS-GO composite membranes were significantly enhanced. Compared to the pure GO membranes, the MOF@CS-GO composite membranes exhibited enhanced Congo red rejection rates (from 76.5% to 95.6%) while maintaining a high pure water flux (34.5 L·m^-2·h^-1·bar^-1) and good structural stability (stable dye removal performance over 120 h). This dual regulation strategy is expected to effectively solve the swelling problem of GO membranes in aqueous media and open up avenues for advancing their performance.

Keywords

Metal-organic framework / graphene oxide membrane / dual modulators / core-shell MOF@CS / dye separation

Cite this article

Download citation ▾

Xingying Wang, Yongmei Guo, Xiaolei Cui, Zhikun Wang, Zhihan Zhang, Lubomira Tosheva, Hailing Guo. Graphene oxide membranes using MOF@Chitosan core-shell nanoparticles as dual modulators for dye separation. Chemical Synthesis, 2024, 4(2): 27 DOI:10.20517/cs.2023.60

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Breedlove B.“No water, no life. No blue, no green”.Emerg Infect Dis2018;24:815-6 PMCID:PMC5875275

[2]	Chen H,Wang X.Dyeing and finishing wastewater treatment in China: state of the art and perspective.J Clean Prod2021;326:129353

[3]	Tkaczyk A,Posyniak A.Synthetic organic dyes as contaminants of the aquatic environment and their implications for ecosystems: a review.Sci Total Environ2020;717:137222

[4]	Raza S,Hayat A,Orooji Y.Sodium alginate hydrogel-encapsulated trans-anethole based polymer: synthesis and applications as an eradicator of metals and dyes from wastewater.Int J Biol Macromol2024;254:127153

[5]	Rojas S.Metal-organic frameworks for the removal of emerging organic contaminants in water.Chem Rev2020;120:8378-415

[6]	Raza S,Ghasali E.Algae extract delamination of molybdenum disulfide and surface modification with glycidyl methacrylate and polyaniline for the elimination of metal ions from wastewater.Environ Res2023;221:115213

[7]	Bal G.Distinct approaches of removal of dyes from wastewater: a review.Mater Today Proceed2022;50:1575-9

[8]	Zhang M,Mao Y,Jin W.Effect of substrate on formation and nanofiltration performance of graphene oxide membranes.J Membrane Sci2019;574:196-204

[9]	Park TJ,Peterson BL.Fructose-driven glycolysis supports anoxia resistance in the naked mole-rat.Science2017;356:307-11

[10]	Gao Y,Mariñas BJ.Nanofiltration membranes with modified active layer using aromatic polyamide dendrimers.Adv Funct Mater2013;23:598-607

[11]	Peng X,Nakamura Y,Ichinose I.Ultrafast permeation of water through protein-based membranes.Nat Nanotechnol2009;4:353-7

[12]	Liu S,Hung W,Lee K.One-step constructed ultrathin Janus polyamide nanofilms with opposite charges for highly efficient nanofiltration.J Mater Chem A2017;5:22988-96

[13]	Qu H,Han Z.A review of graphene-oxide/metal-organic framework composites materials: characteristics, preparation and applications.J Porous Mater2021;28:1837-65

[14]	Peng Y,Zhang R.Oxygen-containing functional groups regulating the carbon/electrolyte interfacial properties toward enhanced K⁺ storage.Nanomicro Lett2021;13:192 PMCID:PMC8438096

[15]	Otsuka H,Honma N.Transient chemical and structural changes in graphene oxide during ripening.Nat Commun2024;15:1708 PMCID:PMC10894275

[16]	Zhang WH,Zhao Q.Graphene oxide membranes with stable porous structure for ultrafast water transport.Nat Nanotechnol2021;16:337-43

[17]	Fu H,Zhu D.Mechanism for selective binding of aromatic compounds on oxygen-rich graphene nanosheets based on molecule size/polarity matching.Sci Adv2022;8:eabn4650 PMCID:PMC9337764

[18]	Qiu L,Yang W,Simon GP.Controllable corrugation of chemically converted graphene sheets in water and potential application for nanofiltration.Chem Commun2011;47:5810-2

[19]	Kim HW,Yoon SM.Selective gas transport through few-layered graphene and graphene oxide membranes.Science2013;342:91-5

[20]	Dong L,Tong X,Chen M.A CO₂-responsive graphene oxide/polymer composite nanofiltration membrane for water purification.J Mater Chem A2018;6:6785-91

[21]	Song X,Qi S.Charge-gated ion transport through polyelectrolyte intercalated amine reduced graphene oxide membranes.ACS Appl Mater Interfaces2017;9:41482-95

[22]	Wang J,Liang B.Graphene oxide as an effective barrier on a porous nanofibrous membrane for water treatment.ACS Appl Mater Interfaces2016;8:6211-8

[23]	Hung W,De Guzman M.Pressure-assisted self-assembly technique for fabricating composite membranes consisting of highly ordered selective laminate layers of amphiphilic graphene oxide.Carbon2014;68:670-7

[24]	Zheng K,Chen Z,Hong Y.Highly stable graphene oxide composite nanofiltration membrane.Nanoscale2021;13:10061-6

[25]	Wu Y,You C.Construction of functionalized graphene separation membranes and their latest progress in water purification.Sep Purif Technol2022;285:120301

[26]	Xu H,Liu S,Shen Z.Preparation and characterization of novel polysulphone hybrid ultrafiltration membranes blended with N-doped GO/TiO₂ nanocomposites.Polymer2017;117:198-207

[27]	Nguyen JG.Moisture-resistant and superhydrophobic metal-organic frameworks obtained via postsynthetic modification.J Am Chem Soc2010;132:4560-1 PMCID:PMC2860283

[28]	Kitagawa S,Noro S.Functional porous coordination polymers.Angew Chem Int Ed Engl2004;43:2334-75

[29]	Cho KM,Nam YT.Ultrafast-selective nanofiltration of an hybrid membrane comprising laminated reduced graphene oxide/graphene oxide nanoribbons.ACS Appl Mater Interfaces2019;11:27004-10

[30]	Fei L,Shen L.Graphene oxide assisted assembly of superhydrophilic MOF-based membrane with 2D/3D hybrid nanochannels for enhanced water purification.Chem Eng J2023;460:141694

[31]	Jiang J,Tian N.Preparation of GO/GOH/MOFs ternary blend membrane and its application for enhanced dye wastewater purification.J Solid State Chem2022;310:123028

[32]	Zeng H,Shao L.A novel strategy for enhancing the performance of membranes for dyes separation: embedding PAA@UiO-66-NH₂ between graphene oxide sheets.Chem Eng J2021;403:126281

[33]	Dong L,Zhang S,Bai Y.NH₂-Fe₃O₄-regulated graphene oxide membranes with well-defined laminar nanochannels for desalination of dye solutions.Desalination2020;476:114227

[34]	Qian X,Wang Q.Chitosan/graphene oxide mixed matrix membrane with enhanced water permeability for high-salinity water desalination by pervaporation.Desalination2018;438:83-96

[35]	Ma H,Ji Y,Song Y.Ultrahigh adsorption capacities for anionic and cationic dyes from wastewater using only chitosan.J Clean Prod2019;214:89-94

[36]	Lu Y,Wang M,Li J.Fabrication of GO/PAN nanofiber membrane grafted with chitosan as efficient adsorbent for dye removal.J Polym Environ2022;30:2943-54

[37]	Li Y,Weyland M.Thermally reduced nanoporous graphene oxide membrane for desalination.Environ Sci Technol2019;53:8314-23

[38]	Qian Y,Liu C,Huang A.Tuning interlayer spacing of graphene oxide membranes with enhanced desalination performance.Desalination2019;460:56-63

[39]	Li L,Zhao S,Liu B.Chitosan modified metal-organic frameworks as a promising carrier for oral drug delivery.RSC Adv2020;10:45130-8 PMCID:PMC9058666

[40]	Kong G,Zhao L.Spray-dispersion of ultra-small EMT zeolite crystals in thin-film composite membrane for high-permeability nanofiltration process.J Membrane Sci2021;622:119045

[41]	He HH,Cai PY.Yolk-shell and hollow Zr/Ce-UiO-66 for manipulating selectivity in tandem reactions and photoreactions.J Am Chem Soc2023;145:17164-75

[42]	Jia X,Chen C,Huang Q.Immobilization of chitosan grafted carboxylic Zr-MOF to porous starch for sulfanilamide adsorption.Carbohydr Polym2021;253:117305

[43]	Bumstead AM,Richards KD.Post-synthetic modification of a metal-organic framework Glass.Chem Mater2022;34:2187-96 PMCID:PMC9100367

[44]	Luo J,Zhang XR.A Eu³⁺ post-functionalized metal-organic framework as fluorescent probe for highly selective sensing of Cu²⁺ in aqueous media.J Mol Struct2019;1177:444-8

[45]	DeCoste JB,Jasuja H,Huang Y.Stability and degradation mechanisms of metal-organic frameworks containing the Zr₆O₄(OH)₄ secondary building unit.J Mater Chem A2013;1:5642-50

[46]	Yang J,Zhu X.Metal-organic frameworks with inherent recognition sites for selective phosphate sensing through their coordination-induced fluorescence enhancement effect.J Mater Chem A2015;3:7445-52

[47]	Hu SZ,Zhang N,Wang Y.Chitosan-assisted MOFs dispersion via covalent bonding interaction toward highly efficient removal of heavy metal ions from wastewater.Carbohydr Polym2022;277:118809

[48]	Chang R,Guo X.Hierarchically assembled graphene oxide composite membrane with self-healing and high-efficiency water purification performance.ACS Appl Mater Interfaces2019;11:46251-60

[49]	Cui X,Fan W.Assembling ionic liquids in MOF “Monomer” based membranes to trigger CO₂/CH₄ separation.Mater Chem Front2022;6:3555-66

[50]	Guo H,Li Y,Huang A.Post-synthetic modification of highly stable UiO-66-NH₂ membranes on porous ceramic tubes with enhanced H₂ separation.Micropor Mesopor Mat2021;313:110823

[51]	Vahidi M,Rashidi AM.Preparation of amine functionalized UiO-66, mixing with aqueous N-Methyldiethanolamine and application on CO₂ solubility.J Nat Gas Sci Eng2016;28:651-9

[52]	Pang J,Wang R.Exploring the sandwich antibacterial membranes based on UiO-66/graphene oxide for forward osmosis performance.Carbon2019;144:321-32

[53]	Linh PH,Van Khien N.A simple approach for controlling the morphology of g-C₃N₄ nanosheets with enhanced photocatalytic properties.Diam Relat Mater2021;111:108214

[54]	Chidhambaram N.Single step transformation of urea into metal-free g-C₃N₄ nanoflakes for visible light photocatalytic applications.Mater Lett2017;207:44-8

[55]	Ren X,Wen X.Graphene oxide membranes for effective removal of humic acid.J Mater Res2022;37:3362-71

[56]	Tang MJ,Wang DA.Precisely patterned nanostrand surface of cucurbituril[n]-based nanofiltration membranes for effective alcohol-water condensation.Nano Lett2020;20:2717-23