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·692·                             精细化工   FINE CHEMICALS                                 第 38 卷

                 cellulose microbeads for removal of malachite green dye from   nanowhiskers improve the methylene blue adsorption capacity of
                 aqueous solution[J]. Journal of Colloid and Interface Science, 2015,   chitosan-g-poly(acrylic acid) hydrogel[J]. Carbohydrate Polymers,
                 437: 277-282.                                     2019, 181: 358-367.
            [17]  VARAPRASAD K, JAYARAMUDU T, SADIKU E R. Removal of   [34]  MOHAMMED C, MAHABIR S, MOHAMMED K, et al. Calcium
                 dye by carboxymethyl cellulose, acrylamide and graphene oxide via   alginate thin films derived from Sargassum natans for the selective
                                                                             2+
                                                                                 2+
                                                                                       2+
                 a free radical polymerization process[J]. Carbohydrate Polymers,   adsorption of Cd , Cu , and  Pb  ions[J]. Industrial &  Engineering
                 2017, 164: 186-194.                               Chemistry Research, 2018, 58(3): 1417-1425.
            [18]  VO T S, VO T T B C, SUK J W, et al. Recycling performance of   [35]  LI Z L, XIAO D, GE Y Y, et al. Surface-functionalized porous lignin
                 graphene oxide-chitosan  hybrid hydrogels for removal of cationic   for fast and efficient lead removal from  aqueous solution[J]. ACS
                 and anionic dyes[J]. Nano Convergence, 2020, 7(1): 4-15.   Applied Materials & Interfaces, 2015, 7(27): 15000-15009.
            [19]  CHEN Y Q,  CHEN L B, BAI H,  et al. Graphene oxide-chitosan   [36]  RAZMI F A, NGADI N, WONG S, et al. Kinetics, thermodynamics,
                 composite hydrogels as broad-spectrum adsorbents  for water   isotherm and regeneration analysis of chitosan modified  Pandan
                 purification[J]. Journal of Materials Chemistry A, 2013, 1(6): 1992-2001.   adsorbent[J]. Journal of Cleaner Production, 2019, 231: 98-109.
            [20]  LIAN Q Y, AHMAD Z U, GANG D D, et al. The effects of carbon   [37]  REN L L, XU J, ZHANG Y C, et al. Preparation and characterization
                 disulfide driven functionalization  on  graphene oxide for enhanced   of porous chitosan microspheres and adsorption  performance for
                 Pb(Ⅱ) adsorption: Investigation of adsorption mechanism[J]. Chemosphere,   hexavalent chromium[J]. International Journal  of  Biological
                 2020, 248: 126078.                                Macromolecules, 2019, 135: 898-906.
            [21]  GAO W, MAJUMDER M, ALEMANY  L  B,  et al. Engineered   [38]  HUANG Z W, LI Z J, ZHENG L R, et al. Interaction mechanism of
                 graphite oxide materials for application in water purification[J]. ACS   uranium(Ⅵ) with three-dimensional graphene oxide-chitosan composite:
                 Applied Materials & Interfaces, 2011, 3(6): 1821-1826.   Insights from batch experiments, IR, XPS and EXAFS spectroscopy[J].
            [22]  YAP P L, TUNG T T, KABIRI S, et al. Polyamine-modified reduced   Chemical Engineering Journal, 2017, 328: 1066-1074.
                 graphene oxide: A new and cost-effective adsorbent for efficient   [39]  QI C Y, ZHAO L Q, LIN Y, et al. Graphene oxide/chitosan sponge as
                 removal of mercury in waters[J]. Separation and Purification Technology,   a novel  filtering  material for  the removal of dye  from  water[J].
                 2020, 238: 116441.                                Journal of Colloid and Interface Science, 2018, 517: 18-27.
            [23]  YAP P L, KABIRI S, TRAN D  N,  et al. Multifunctional binding   [40]  DE LUNA M S, ASCIONE C, SANTILLO C, et al. Optimization of
                 chemistry on modified graphene composite for selective and highly   dye adsorption capacity and mechanical strength of chitosan aerogels
                 efficient adsorption of mercury[J]. ACS Applied Materials & Interfaces,   through crosslinking strategy and graphene oxide addition[J]. Carbohydrate
                 2018, 11(6): 6350-6362.                           Polymers, 2019, 211: 195-203.
            [24]  WANG  Z, WU Q, ZHANG J,  et al.  In situ polymerization of   [41]  LAI K C, HIEW  B Y Z,  LEE L Y,  et al. Ice-templated graphene
                 magnetic graphene  oxide-diaminopyridine composite  for the effective   oxide/chitosan aerogel as an effective adsorbent for sequestration of
                 adsorption of Pb(Ⅱ) and application in battery industry wastewater   metanil yellow dye[J]. Bioresource Technology, 2018, 274: 134-144.
                 treatment[J]. Environmental Science and Pollution, 2019, 26: 33427-   [42]  ZHANG B,  HU  R  T, SUN D J,  et al. Fabrication of chitosan/
                 33439.                                            magnetite-graphene oxide composites  as a novel bioadsorbent for
            [25]  XU J, LI S S, WANG F, et al. Efficient and enhanced adsorption of   adsorption and detoxification of Cr(Ⅵ) from aqueous solution[J].
                 methylene blue on triethanolamine-modified graphene oxide[J].   Scientific Reports, 2018, 8(1): 15397-15409.
                 Journal of Chemical & Engineering Data, 2019, 64(4): 1816-1825.   [43]  TAHER F A, KAMAL F H, BADAWY N A,  et al. Hierarchical
            [26]  BU J B, YUAN L, ZHANG N, et al. High-efficiency adsorption of   magnetic/chitosan/graphene oxide 3D nanostructure as highly
                 methylene blue dye from wastewater by a thiosemicarbazide   effective adsorbent[J]. Materials Research Bulletin, 2018, 97: 361-368.
                 functionalized graphene oxide composite[J]. Diamond and Related   [44]  GAO  L,  WANG Y G, YAN  T,  et al. A  novel magnetic
                 Materials, 2020, 101: 107604.                     polysaccharide-graphene oxide composite for removal of cationic
            [27]  FAN X  Z, SHANG K, SUN  B, et al. Decoration of surface-   dyes from  aqueous solution[J]. New  Journal of Chemistry, 2015,
                                                3+
                 carboxylated graphene oxide with luminescent Sm -complexes[J].   39(4): 2908-2916.
                 Journal of Materials Science, 2014, 49(6): 2672-2679.   [45]  LI Y G, SHI S Y, CAO H B, et al. Improvement of the antifouling
            [28]  WHITE R L, WHITE C M, TURGUT H, et al. Comparative studies   performance and stability of an anion exchange membrane by surface
                 on copper adsorption by graphene oxide and functionalized graphene   modification with graphene oxide (GO) and polydopamine (PDA)[J].
                 oxide nanoparticles[J]. Journal of the Taiwan Institute of Chemical   Journal of Membrane Science, 2018, 566: 44-53.
                 Engineers, 2018, 85: 18-28.                   [46]  QIU P P, WANG S, TIAN C, et al. Adsorption of low-concentration
            [29]  ZHAO L Q, YANG S T, FENG S C, et al. Preparation and application of   mercury in water by 3D  cyclodextrin/graphene composites:
                 carboxylated graphene oxide sponge in dye removal[J]. International   Synergistic effect and enhancement mechanism[J]. Environmental
                 Journal of Environmental Research and Public Health, 2017, 14(11):   Pollution, 2019, 252: 1133-1141.
                 1301.                                         [47]  LI X Y, ZHOU H  H, WU W Q,  et al. Studies of heavy metal ion
            [30]  ZARE-DORABEI  R, FERDOWSI S  M, BARZIN A,  et al. Highly   adsorption on chitosan/sulfydryl-functionalized graphene oxide
                 efficient simultaneous ultrasonic-assisted adsorption of Pb( Ⅱ ),   composites[J]. Journal of Colloid and Interface Science, 2015, 448:
                 Cd(Ⅱ), Ni(Ⅱ) and Cu(Ⅱ) ions from aqueous solutions by graphene   389-397.
                 oxide modified with 2,2′-dipyridylamine: Central composite design   [48]  LI T, LIU X J, LI L Z, et al. Polydopamine-functionalized graphene
                 optimization[J]. Ultrasonics Sonochemistry, 2016, 32: 265-276.   oxide compounded with polyvinyl alcohol/chitosan hydrogels on the
            [31]  MAHMOUD M  E, OSMAN M  M, ABDEL-AAL H,  et al.   recyclable adsorption  of Cu(Ⅱ), Pb(Ⅱ) and Cd(Ⅱ) from  aqueous
                 Microwave-assisted adsorption  of Cr(Ⅵ), Cd(Ⅱ) and  Pb(Ⅱ) in   solution[J]. Journal of Polymer Research, 2019, 26(12): 281.
                 presence of magnetic graphene oxide-covalently functionalized-   [49]  LIAO Y, WANG  M, CHEN D J. Preparation  of  polydopamine-
                 tryptophan nanocomposite[J]. Journal of Alloys and Compounds,   modified graphene oxide/chitosan aerogel for uranium(Ⅵ) adsorption[J].
                 2020, 823: 153855.                                Industrial & Engineering Chemistry Research, 2018, 57(25): 8472-8483.
            [32]  LICHTFOUSE E,  MORIN-CRINI N, FOURMENTIN  M,  et al.   [50]  SHARMA P, SINGH  A K, SHAHI  V K. Selective  adsorption of
                 Chitosan for direct bioflocculation of wastewater[J]. Environmental   Pb(Ⅱ)  from aqueous medium by cross-linked chitosan-functionalized
                 Chemistry Letters, 2019, 17(4): 1603-1621.        graphene oxide adsorbent[J]. ACS Sustainable Chemistry & Engineering,
            [33]  MELO B C, PAULINO F A A, PEREIRA A G B, et al. Cellulose   2019, 7(1): 1427-1436.
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