·1916·                            精细化工   FINE CHEMICALS                                 第 37 卷





























                              图 8  Ca-MMT（a）与 Fe-MMT（b）吸附芘后的透射 Mapping 元素分布图
                     Fig. 8    Mapping element distribution diagrams of Ca-MMT (a) and Fe-MMT (b) after adsorbing pyrene

            3    结论                                                oxygen reduction reaction[J]. Scientific Reports, 2017, 7(1): 4158-4167.
                                                               [8]   KRUPA K, ARCHINI P,  SUPERB K M. Montmorillonite  clay  and
                 采用铁元素作柱化剂，经 350 ℃高温煅烧，制                           humic acid modulate the behavior of copper oxide nanoparticles in
                                                                   aqueous environment and induces developmental defects in zebrafish
            备出稳定性强的 Fe-MMT。制备的 Fe-MMT 层与层                          embryo[J]. Environmental Pollution, 2019, 255(2): 113313.
            间距离加大，表面具有微孔结构，这种特殊的结构                             [9]   SHIMA B, VALEH A. Synthesis and characterization of hierarchical
            有利于疏水性 PAHs 的吸附，其吸附性能明显高于                              porous clay heterostructure from Al, Fe-pillared nano-bentonite using
                                                                   microwave and ultrasonic techniques[J]. Microporous and Mesoporous
            Ca-MMT，而且循环利用 5 次后吸附容量仍然能达
                                                                   Materials, 2019, 278(4): 138-148.
            到 70.9 mg/g ，吸附效率维持在 88.82%。表 明                    [10]  CHEN D S (陈定盛), ZHONG S T (钟少涛), LI Y T (李亦婷), et al.
            Fe-MMT 具有用于去除疏水性有机污染物的潜在                               Preparation of ferrosilicon-based  pillared montmorillonite and its
                                                                   adsorption  performance on Cr( Ⅵ )[J]. Chemical Minerals and
            价值。
                                                                   Processing (化工矿物与加工), 2019, 48(12): 58-62.
                                                               [11]  LIU X W (刘晓文), ZHONG G (钟钢), LIU Z (刘庄),  et al.
            参考文献：
                                                                   Preparation and channel structure of chrome-aluminum-based pillared
            [1]   ZHANG Y (张玉), SONG G W (宋光卫), LIU H H (刘海红), et al.   montmorillonite[J]. Journal  of Central South University (Natural
                 Status and risk assessment of polycyclic  aromatic hydrocarbons   Science Edition) (中南大学学报:  自然科学版), 2010, 41(3): 819-824.
                 (PAHs) pollution in the soil  of a large chemical site[J]. Journal of   [12]  UNDABEYTIA T, GALAN-JIMENEZ M C, GOMEZ-PANTOJA E,
                 Ecology (生态学杂志), 2019, 38(11): 3408-3415.         et al. Fe-pillared clay  mineral-based formulations of imazaquin for
            [2]   HE J L(何计龙), XIA H L (夏慧丽), LU T (卢婷). Determination of   reduced leaching in soil[J]. Applied Clay Science, 2013,  80/81(8):
                 16 polycyclic aromatic hydrocarbons in soil by gas chromatography-   382-389.
                 mass spectrometry[J]. Chemical Industry Times (化工时刊), 2011,   [13]  ZHOU Z K (周子康). Research progress in bacteria degradation of
                 25(8): 23-28.                                     low molecular weight  PAHs[J]. Journal of Biological Engineering
            [3]   SONG Y M (宋玉梅), WANG  C (王畅), LIU S (刘爽),  et al.   (生物工程学报), 2019, 35(11): 2069-2080.
                 Distribution, sources and human health risk assessment of polycyclic   [14]  ZHAO T Y (赵体跃), LONG M H (龙明华), QIAO S Y (乔双雨),
                 aromatic hydrocarbons in Guangzhou drinking water source area[J].   et al. Pollution characteristics of polycyclic aromatic hydrocarbons in
                 Environmental Science (环境科学), 2019, 40(8): 3489-3500.   aquatic vegetable soils in Guangxi[J]. Earth and Environment(地球
            [4]   ZHOU J (周进), DING  L (丁玲), ZHANG T (张婷),  et al.   与环境), 2019, 47(5): 728-237
                 Preparation and  performance of  g-C 3N 4/CQDs photocatalytic   [15]  MUKHOPADHYAY R, MANJAIAH K M, DATTA S C,  et al.
                 materials[J]. Fine Chemicals (精细化工), 2020, 37(4): 702-709.   Inorganically modified  clay minerals: Preparation,  characterization,
            [5]   LONG S (龙森), TUO B Y(庹必阳), XIE F (谢飞), et al. Study on   and arsenic adsorption in contaminated water  and soil[J]. Applied
                 preparation of titanium pillared  montmorillonite and photocatalytic   Clay Science, 2017, 147(10): 1-10.
                 degradation of methylene blue[J]. New Chemical Materials (化工新  [16] SU Y (苏洋). Spectrophotometric determination of iron in vanadium
                 型材料), 2018, 46(7): 204-207.                       aluminum alloy with o-phenanthroline[J]. Metallurgical Analysis (冶
            [6]   HELIR-JOSEPH M, CAROLINA B, ANTONIO G, et al. Preparation   金分析), 2019, 39 (2): 77-80.
                 of Al/Fe-pillared clays: Effect of the starting mineral[J].  Materials,   [17]  HE M Q (何梦奇), XU J H (徐继红), DUAN X Y (段贤扬), et al.
                 2017, 10(12): 1364-1381                           Preparation of GO/GA-g-PAMPS composite hydrogels and study on dye
            [7]   CHEN M P,  WU P X,  CHEN  L  Y,  et al. Three-dimensional   adsorption properties[J]. Fine  Chemicals (精细化工), 2020, 37(5):
                 multi-doped porous carbon/graphene derived from sewage sludge   924-932.
                 with template-assisted Fe-pillared montmorillonite for enhanced   [18]  SONG X (宋祥), TUO B Y (庹必阳), ZHAO X X (赵徐霞), et al.