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纳米四氧化三铁技术去除水中六价铬的研究进展 被引量:3

Research Progress of Removal of Cr(Ⅵ) From Aqueous Solution by Nano Ferroferric Oxide Technology
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摘要 文章介绍了水体中六价铬的来源与分布,概述了六价铬的吸附技术,着重介绍了纳米四氧化三铁技术去除水体中六价铬的研究进展,并对该技术的研究前景作了展望。 In the paper, the source and distribution of hexavalent chromium in water were introduced. And the absorption technologies of hexavalent chromium were summarized. Then the research progress of removal of hexavalent chromium from aqueous solution by nano ferroferric oxide technology was introduced particularly. Finally, the study development of nano ferroferric oxide technology was prospected.
作者 方晓波
机构地区 广州市循环经济清洁生产协会
出处 《广东化工》 CAS 2016年第15期127-128,共2页 Guangdong Chemical Industry
关键词 六价铬 四氧化三铁纳米颗粒 吸附 Cr(Ⅵ) Fe3O4 nanoparticles adsorption
分类号 TQ [化学工程]
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参考文献12

  • 1Roy D, Semsarilar M, Guthrie J T, et al. Cellulose modification by polymer grafting: a review[J]. Chemical Society Reviews, 2009, 38: 2046-2064.
  • 2Thinh N N, Hanh P T B, Ha L T T, et al. Magnetic chitosan nanoparticles for removal of Cr(VI) from aqueous solution[J]. Materials Science and Engineering C, 2013, 33(3): 1214-1218.
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  • 5Asuha S, Suyala B, Zhao S. Porous structure and Cr(VI) removal abilities of Fe304 prepared from Fe-urea complex[J]. Materials Chemistry and Physics, 2011, 182(1-2): 483-487.
  • 6Hu J, Chen G H, Lo I M C. Removal and recovery of Cr(VI)from wastewater by maghemite nanoparticles[J]. Water Research, 2005, 39(18): 4528-4536.
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  • 8Hui Zhang,De-Lei Liu,Li-Li Zeng,Meng Li.β-Cyclodextrin assisted one-pot synthesis of mesoporous magnetic Fe_3O_4@C and their excellent performance for the removal of Cr(Ⅵ) from aqueous solutions[J].Chinese Chemical Letters,2013,24(4):341-343. 被引量:11
  • 9Yang S W, Liu D, Liao F, et al. Synthesis, characterization, morphology control of poly(p-phenylenediamine)-Fe304 magnetic micro-composite and their application for the removal of Cr2072- from water[J]. Synthetic Metals, 2012, 162 (24): 2329-2336.
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二级参考文献9

  • 1Z.Y. Zhang, J.L. Kong, Novel magnetic Fe304@C nanoparticles as adsorbents for removal of organic dyes from aqueous solution, J. Hazard. Mater. 193 (2011) 325-329.
  • 2J. Zheng, Z.Q. Liu, XS, Zhao, et aI., One-step solvothermal synthesis of Fe304@C core-shell nanoparticles with tunable sizes, Nanotechnology 23 (2012) 165601- 165608.
  • 3K. Cheng, Y.M. Zhou, Z.Y. Sun, et aI., Synthesis of carbon-coated, porous and water?dispersive Fe304 nanocapsules and their excellent performance for heavy metal removal applications, Dalton Trans. 41 (2012) 5854-5861.
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  • 7Y.Y. Xu, D. Zhao, X.j. Zhang, et aI., Synthesis and characterization of single?crystalline alpha-Fe-Oj nanoleaves, Physica E 41 (2009) 806-811.
  • 8S.H. Xuan, L.Y. Hao, W.Q, Jiang, et aI., A facile method to fabricate carbon-encap?sulated Fe304 core/shell composites, Nanotechnology 18 (2007) 1-6.
  • 9W.M. Zhang, xi, WU,J.S. Hu, Y.G. Guo, L.J. Wan, Carbon coated Fe304 nanospindles as a superior anode material for lithium-ion batteries, Adv. Funct. Mater. 18 (2008) 3941-3946.

共引文献10

同被引文献41

引证文献3

二级引证文献2

广东化工
2016年 第15期

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