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PVC-Li_4Mn_5O_(12)复合离子筛的锂吸附性能

Lithium Adsorption of PVC-Li_4Mn_5O_(12) Ion-Sieve
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摘要 采用PVC粘合成型技术对实验室合成的Li_4Mn_5O_(12)粉体进行成型,制备出直径约为3.5mm的球形PVC-Li_4Mn_5O_(12)复合材料,并通过SEM、孔径分布、吸附动力学和选择性测试等手段研究成型前后离子筛的形貌和吸附性能。结果表明:PVC-Li_4Mn_5O_(12)复合样品中的离子筛仍为纳米棒;且球形离子筛具有较大的比表面积,在模拟卤水中对Li^+具有良好的选择性吸附性能。 Spherical PVC-Li4Mn5O12 ion-sieves with diameter of about 3.5 mm were prepared by the developed PVC granulation process of Li4 MnSO12 ultrafine powder synthesized in our lab. The morphology and adsorption property were characterized by scanning electron microscopy (SEM) and methods to determine the pore size distribution, adsorption kinetics and selectivity. The nanorod structure of ultrafine powder was well maintained in the composite PVC-Li4Mn5O12 ion-sieve, and the spherical ion-sieve had high specific surface area, high Li+ adsorption capacity and high selectivity for Li+ adsorption in simulated brine.
作者 肖国萍 周龙生 孙淑英 于建国
机构地区 华东理工大学国家盐湖资源综合利用工程技术研究中心
出处 《华东理工大学学报(自然科学版)》 CAS CSCD 北大核心 2012年第4期402-407,415,共7页 Journal of East China University of Science and Technology
基金 国家自然科学基金(20906022) 国家863计划(2012AA061601)
关键词 PVC-Li_4Mn_5O_12 离子筛 选择性吸附 卤水 PVC-Li4Mn5O12 ion-sieve lithium selective adsorption brine
分类号 TQ028 [化学工程]
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参考文献23

  • 1Armstrong A R, Bruce P G. Synthesis of layered LiMnOz as an electrode for rechargeable lithium batteries[J]. Nature, 1996, 381(6582): 499-500.
  • 2Ammundsen B, J Jones D, Roziere J. Mechanism of proton insertion and characterization of the proton sites in Lithium manganatespinels[J]. Chem Mater, 1995, 7(11): 2151- 2160.
  • 3Siapkas D, Mitsas C, Samaras I, et al. Synthesis and charac- terization of LiMn204 for use in Li-ion batteries[J]. Journal of Power Sources, 1998, 72(1): 22-26.
  • 4Gao Y, Dahn J. Synthesis and characterization of Lil+xMn2-xO4 for Li-ion battery applications[J]. Journal of the Electrochemical Society, 1996, 143(1): 100-114.
  • 5Zhang Qinhui, Li Shaopeng, Sun Shuying, et al. LiMn204spinel direct synthesis and lithium ion selective adsorption [J]. Chemical Engineering Science, 2010, 65(1): 169-173.
  • 6Zhang Qinhui, Sun Shuying, Li Shaopeng, etal. Adsorption of lithium ions on novel nanocrystal MnO2[J]. Chemical Engineering Science, 2007, 62(18 20): 4869-4874.
  • 7Yang Xiaojing, Tang Weiping, Liu Zonghuai, et al. Synthe- sis of lithium-rich LiMnzO4 spinels by lithiation and heat treatment of defective spinels[J]. Journal of Materials Chem istry, 2002, 12(3): 489-495.
  • 8Feng O, Miyai Y, Kanoh H, et al. Li Extraction/insertion with spinel-type lithium manganese oxides: Characterization of redox-type and ion-exchange-type sites [J]. Langmuir, 1992, 8(7): 1861-1867.
  • 9Ooi K, Miyai Y, Sakakihara J. Mechanism of Li+insertion in spinel type manganese oxide, redox and ion exchange reac tions[J]. Langmuir, 1991, 7(6): 1167-1171.
  • 10Kim Y, Kanoh H, Hirotsu T, et al. Chemical bonding of ion exchange type sites in spinel type manganese oxides Lil. 33Mnl. 6704[J]. Materials Research Bulletin, 2002, 37 (2):391-396.

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华东理工大学学报(自然科学版)
2012年 第4期

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