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Progresses and expansions of chitosan-graphene oxide hybrid networks utilizing as adsorbents and their organic dye removal performances: A short review

Yıl 2021, Cilt 8, Sayı 4, 1121 - 1136, 30.11.2021
https://doi.org/10.18596/jotcsa.943623

Öz

Increasing concentration of pollutants has significantly affected the quality of water, especially for organic dyes-contained water/wastewater. This is probably reduced effectively through adsorbing the pollutants onto potential materials-based adsorbents. Chitosan/graphene oxide (CTS/GO) hybrid networks utilizing as adsorbents are attracting considerable interest owing to the available functional groups, which can remove plenty of the organic dyes from water/wastewater. In this review, the progress and expansions of CTS/GO hybrid networks-based adsorbents are summarized and discussed in detail. Following the general introduction and properties of each material system (i.e., CTS, GO and CTS/GO hybrid networks), the CTS/GO hybrid networks-based emerging adsorbents with coupling numerous other support materials (i.e., reduced GO, magnetic iron oxide, polymeric materials, metal-organic frameworks, etc.) are compared and discussed in short, at same time that some common organic dyes used in adsorption studies are also introduced. Besides, adsorption technique and mechanisms (i.e., adsorption kinetics and isotherms) focus on the CTS/GO hybrid networks' role are discussed as well. Although there are still some challenges from the reviewed researches, the CTS/GO hybrid networks-based emerging materials can be considered promising and potential adsorbents. Moreover, this review can provide a clear overview of CTS/GO hybrid networks-based adsorbents in organic dye removal applications to readers.

Kaynakça

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Yıl 2021, Cilt 8, Sayı 4, 1121 - 1136, 30.11.2021
https://doi.org/10.18596/jotcsa.943623

Öz

Kaynakça

  • 1. Ceylan H, Pekdemi̇r AD, Önal M, Sarikaya Y. The Effect of the Hydrothermal and Thermal Deactivations on the Adsorptive Properties and Liquid Permeability of a Silica Gel. Journal of the Turkish Chemical Society Section A: Chemistry [Internet]. 2021 Mar 14; 8(2): 477-82. .
  • 2. İlbay Z, Yildirir E. Vermicompost as a potential adsorbent for the adsorption of methylene blue dye from aqueous soulutions. Journal of the Turkish Chemical Society Section A: Chemistry. 2020 Oct 23;893–902. .
  • 3. Lali̇koğlu M. Mg-Al Layered Double Hydroxide (LDH) as an Adsorbent for Removal of Itaconic Acid from Aqueous Solutions: Equilibrium and Kinetic Study. Journal of the Turkish Chemical Society Section A: Chemistry. 2020 Dec 5;103–16. .
  • 4. Vo TS, Hossain MM, Jeong HM, Kim K. Heavy metal removal applications using adsorptive membranes. Nano Convergence. 2020 Dec;7(1):36. .
  • 5. Yildirim A, Acay H, Baran A. Synthesis and characterization of molecularly imprinted composite as a novel adsorbent and competition with non-imprinting composite for removal of dye. Journal of the Turkish Chemical Society Section A: Chemistry. 2021 May 4;609–22. .
  • 6. Vo TS, Vo TTBC, Suk JW, Kim K. Recycling performance of graphene oxide-chitosan hybrid hydrogels for removal of cationic and anionic dyes. Nano Convergence. 2020 Dec;7(1):4. .
  • 7. Aksu Z, Tezer S. Biosorption of reactive dyes on the green alga Chlorella vulgaris. Process Biochemistry. 2005 Mar;40(3–4):1347–61. .
  • 8. Salleh MAM, Mahmoud DK, Karim WAWA, Idris A. Cationic and anionic dye adsorption by agricultural solid wastes: A comprehensive review. Desalination. 2011 Oct;280(1–3):1–13. .
  • 9. Sanghi R, Bhattacharya B. Review on decolorisation of aqueous dye solutions by low cost adsorbents. Coloration Technol. 2002 Sep;118(5):256–69. .
  • 10. Vo TS, Vo TTBC. Preparation and Characterization of Bis-Propargyl-Succinate, and its Application in Preliminary Healing Ability of Crosslinked Polyurethane using" Azide-Alkyne" Click. Journal of Engineering Science & Technology Review. 2020;13(4): 110-6.
  • 11. Vo TS, Vo TTBC, Tien TT, Si̇Nh NT. Enhancement of mechanical property of modified polyurethane with bis-butyl succinate. Journal of the Turkish Chemical Society Section A: Chemistry. 2021 Mar 30;519–26. .
  • 12. Vo TS, Vo TTBC. A Self-Healing Material Based on Microcapsules of Poly(Urea-Formaldehyde)/Bis-Propargyl-Succinate Containing in Polyurethane Matrix. Journal of the Turkish Chemical Society Section A: Chemistry. 2021 Jul 26;787–802. .
  • 13. Crini G. Non-conventional low-cost adsorbents for dye removal: A review. Bioresource Technology. 2006 Jun;97(9):1061–85. .
  • 14. Gupta VK, Carrott PJM, Ribeiro Carrott MML, Suhas. Low-Cost Adsorbents: Growing Approach to Wastewater Treatment - a Review. Critical Reviews in Environmental Science and Technology. 2009 Oct 9;39(10):783–842. .
  • 15. Gurbanova M, Loboi̇Chenko V, Leonova N, Strelets V. Effect Of Inorganic Components Of Fire Foaming Agents On The Aquatic Environment. Journal of the Turkish Chemical Society Section A: Chemistry. 2020 Oct 27;833–44. .
  • 16. Nworie F, Ebunoha J. Hydrothermal Synthesis of Fluorescent Schiff Base Functionalized Carbon Dot Composite for The Removal Of Cd(II) Ions From Aqueous Solution: Equilibrium and Kinetic Studies. Journal of the Turkish Chemical Society Section A: Chemistry. 2020 Aug 2;137–56. .
  • 17. Yakişik H, Özveren U. Synthesis of Polyaniline / Biochar composite material and modeling with nonlinear model for removal of copper(II) heavy metal ions. Journal of the Turkish Chemical Society Section A: Chemistry. 2021 Feb 28;8(1):291–304. .
  • 18. Ceylan S, Alatepeli̇ B. Evaluation of PVA/Chitosan Cryogels as Potential Tissue Engineering Scaffolds; Synthesis, cytotoxicity and genotoxicity investigations. Journal of the Turkish Chemical Society Section A: Chemistry. 2020 Nov 20;69–78. .
  • 19. Islam S, Bhuiyan MAR, Islam MN. Chitin and Chitosan: Structure, Properties and Applications in Biomedical Engineering. J Polym Environ. 2017 Sep;25(3):854–66. .
  • 20. Rinaudo M. Chitin and chitosan: Properties and applications. Progress in Polymer Science. 2006 Jul;31(7):603–32. .
  • 21. Dutta PK, Dutta J, Tripathi V. Chitin and chitosan: Chemistry, properties and applications. 2004; Journal of Scientific & Industrial Research. 2004;63: 20-31.
  • 22. Vo TS, Vo TTBC, Nguyen TS, Pham ND. Incorporation of hydroxyapatite in crosslinked gelatin/chitosan/poly(vinyl alcohol) hybrids utilizing as reinforced composite sponges, and their water absorption ability. Progress in Natural Science: Materials International. 2021 Sep;S1002007121001349. .
  • 23. Tamer Y, Özeren MD, Berber H. High Adsorption Performance of Graphene Oxide Doped Double Network Hydrogels for Removal of Azo Dyes from Water and Their Kinetics. J Polym Environ [Internet]. 2021 May 12 [cited 2021 Sep 30]; <URL>.
  • 24. Li Y, Du Q, Liu T, Sun J, Wang Y, Wu S, et al. Methylene blue adsorption on graphene oxide/calcium alginate composites. Carbohydrate Polymers. 2013 Jun;95(1):501–7. .
  • 25. Wu Z, Zhong H, Yuan X, Wang H, Wang L, Chen X, et al. Adsorptive removal of methylene blue by rhamnolipid-functionalized graphene oxide from wastewater. Water Research. 2014 Dec;67:330–44. .
  • 26. Sitko R, Musielak M, Zawisza B, Talik E, Gagor A. Graphene oxide/cellulose membranes in adsorption of divalent metal ions. RSC Adv. 2016;6(99):96595–605. .
  • 27. Musielak M, Gagor A, Zawisza B, Talik E, Sitko R. Graphene Oxide/Carbon Nanotube Membranes for Highly Efficient Removal of Metal Ions from Water. ACS Appl Mater Interfaces. 2019 Aug 7;11(31):28582–90. .
  • 28. Ramesha GK, Vijaya Kumara A, Muralidhara HB, Sampath S. Graphene and graphene oxide as effective adsorbents toward anionic and cationic dyes. Journal of Colloid and Interface Science. 2011 Sep;361(1):270–7. .
  • 29. Yang X, Tu Y, Li L, Shang S, Tao X. Well-Dispersed Chitosan/Graphene Oxide Nanocomposites. ACS Appl Mater Interfaces. 2010 Jun 23;2(6):1707–13. .
  • 30. Fan L, Luo C, Li X, Lu F, Qiu H, Sun M. Fabrication of novel magnetic chitosan grafted with graphene oxide to enhance adsorption properties for methyl blue. Journal of Hazardous Materials. 2012 May;215–216:272–9. .
  • 31. Javadi E, Baghdadi M, Taghavi L, Ahmad Panahi H. Removal of 4-nonylphenol from Surface Water and Municipal Wastewater Effluent Using Three-Dimensional Graphene Oxide–Chitosan Aerogel Beads. Int J Environ Res. 2020 Oct;14(5):513–26. .
  • 32. Lai KC, Lee LY, Hiew BYZ, Yang TC-K, Pan G-T, Thangalazhy-Gopakumar S, et al. Utilisation of eco-friendly and low cost 3D graphene-based composite for treatment of aqueous Reactive Black 5 dye: Characterisation, adsorption mechanism and recyclability studies. Journal of the Taiwan Institute of Chemical Engineers. 2020 Sep;114:57–66. .
  • 33. Zhang M, Ma G, Zhang L, Chen H, Zhu L, Wang C, et al. Chitosan-reduced graphene oxide composites with 3D structures as effective reverse dispersed solid phase extraction adsorbents for pesticides analysis. Analyst. 2019;144(17):5164–71. .
  • 34. Khraisheh MAM, Al-Ghouti MA, Allen SJ, Ahmad MN. Effect of OH and silanol groups in the removal of dyes from aqueous solution using diatomite. Water Research. 2005 Mar;39(5):922–32. .
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Ayrıntılar

Birincil Dil İngilizce
Konular Polimer Bilimi
Bölüm DERLEME MAKALELER
Yazarlar

Thi Sinh VO (Sorumlu Yazar)
School of Mechanical Engineering, Sungkyunkwan University
0000-0003-3830-0474
South Korea

Destekleyen Kurum No
Proje Numarası No
Yayımlanma Tarihi 30 Kasım 2021
Başvuru Tarihi 27 Mayıs 2021
Kabul Tarihi 23 Eylül 2021
Yayınlandığı Sayı Yıl 2021, Cilt 8, Sayı 4

Kaynak Göster

Vancouver Vo T. S. Progresses and expansions of chitosan-graphene oxide hybrid networks utilizing as adsorbents and their organic dye removal performances: A short review. Journal of the Turkish Chemical Society Section A: Chemistry. 2021; 8(4): 1121-1136.
J. Turk. Chem. Soc., Sect. A: Chem.