·1870·                            精细化工   FINE CHEMICALS                                  第 35 卷

                                                                                               3+
                 crystalline structure and photoluminescence investigations of the new   narrow bandwidth red emission from  Eu -grafting conjugated
                                                  3+
                                       3+
                                           3+
                 trivalent rare earth complexes (Sm , Eu  and Tb ) containing   polymers[J]. Macromolecules, 2002, 35(19):7274-7280.
                 2-thiophenecarboxylate as sensitizer[J]. Inorganica Chimica Acta,   [15]  Ding Zhongfen (丁仲芬), Huang Shaohui (黄少慧). Application of
                 2004, 357(2): 451-460.                            rare earth in  polymer materials [J]. Guangzhou Chemical Industry
            [4]   Chen Y, Cai W M. Synthesis and fluorescence properties of rare earth   (广州化工), 1997, 25(4): 30-36.
                         3+
                   3+
                 (Eu  and Gd ) complexes with alpha-naphthylacetic acid and 1,   [16] Kang Yong(康永), Chai Xiujuan (柴秀娟). Research progress on rare
                 10-phenanthroline[J]. Spectrochimica  Acta, Part A:  Molecular &   earth polymer luminescent  materials [J]. Hunan Nonferrous Metals
                 Biomolecular Spectroscopy, 2005, 62(4/5): 863-868.     (湖南有色金属), 2011, 27 (1): 34-38.
            [5]   Yan Q, Wu Y, Han K, et al. Luminescence of Eu(DBM) 3Phen-doped   [17]  Liu Dan (刘丹), Wang Zhonggang (王忠刚). Study on the synthesis
                 in azobenzene-containing copolymers-effects of absorption overlapping   and properties of polymer rare earth complex luminescent materials
                 of two components[J]. Spectrochimica Acta, Part A: Molecular &   [J]. Polymer bulletin (高分子通报), 2011, (9): 92-99.
                 Biomolecular Spectroscopy, 2010, 75(3): 992-996.     [18]  Ye Zhao (叶钊), Duan Peihua (段佩华), Zhang Jisen(张继森), et al.
            [6]   Deng Youe (邓友娥), Tang Jieyuan (唐洁渊), Zhang Wengong (章文  The optical properties of rare earth complex Eu (DBM) 3 phen/
                 贡), et al. Study on Europium (Ⅲ) coordination polymer containing   polypropylene composite thin films [J]. Chinese Journal of
                 rare earth [J]. Journal of  Functional Polymers (功能高分子学报),   Luminescence (发光学报), 2010, 31(4): 585-589.
                 2003, 16(1): 49-53.                           [19] Lin  Meijuan  (林美娟), Hu Zhen  (胡珍), Wang Wen  (王文),  et al.
            [7]   Wang Hongzuo (王洪祚), Li Zhian (李志安), Song Guizhen (宋桂  Preparation and luminescent properties of acetic  acid  rare earth
                 珍),  et al. Effects of different synthesis methods  on fluorescence   complexes/polyacrylamide[J]. Chinese Journal of Luminescence (发
                 properties of rare earth ions[J]. Polymer  Materials Science  and   光学报), 2010, 31(6): 914-919.
                 Engineering (高分子材料科学与工程), 1994, 10(3): 27-30.     [20]  Du Yejian (都业俭), Gong Jianhua (龚建华), Li Jing (李靖), et al.
            [8]   Liu Bo (刘博). Study on polymer-assisted preparation of rare earth   Evaluation of uncertainty of total rare  earth in RECl 3 by  EDTA
                 luminescent materials and their properties [D]. Taiyuan:North China   method[J]. Baotou Steel Science and Technology (包钢科技), 2016,
                 University (中北大学), 2014.                          42(5): 63-68.
            [9]  Kong Min (孔敏). Application of rare earth upconversion to improve   [21]  Shen Wenxin (沈文馨), Su Yaqin (苏亚勤), Liu Yonglin (刘永林),
                 the performance of P 3HT: PCBM system polymer solar cell[D].   et al. Determination of rare earth total of samarium  europium-
                 Nanjing:Nanjing University of Posts and Telecommunications (南京  gadolinium enrichment by XRF/EDTA titration[J]. Journal of
                 邮电大学), 2013.                                      Analytical Science (分析科学学报), 2005, (3): 343-344.
            [10]  Zeng Lichang (曾礼昌). Polymeric  electroluminescent materials   [22]  Pan Zhenwen (潘振文). Preparation of yttrium oxide in rare earth by
                 containing rare earth metal complexes [D].  Hangzhou:  Zhejiang   extraction chromatography-EDTA volumetric method[J]. Journal of
                 University (浙江大学), 2004.                          Jiaying University(Natural Science)(嘉应大学学报:  自然科学),
            [11]  Yang Yunfeng (杨云峰), Gao Baojiao (高保娇), Xu Li (徐立), et al.   1995, 11(1): 90-93.
                 Study on synthesis of photoluminescent rare earth Europium polymer   [23]  Huang Liang (黄亮), Yu Dequan (于德泉). Application of ultraviolet
                 complexes [J]. Journal of North China Institute of Technology (华北  spectroscopy in organic chemistry[M]. Beijing: Science Press(科学
                 工学院学报), 2002, 23(3): 216-218.                     出版社), 1988.
                                                  3+
            [12]  Wolff N E, Pressley  R J. Optical  maser action in Eu  containing   [24]  Liu Xingyu (刘兴妤). Study on synthesis and luminescent properties
                 organic matrix[J]. Appl Phys Lett, 1963, 2(8): 152-154.     of rare earth polymer materials[D]. Lanzhou :Lanzhou University (兰
            [13]  Banks E, Okamoto Y, Ueba Y. Synthesis and characterization of rare   州大学), 2008.
                 earth metal-containing polymers.  Ⅰ . Fluorescent properties of   [25]  Zhao  Y  C, Huang L J, Wang  Y X,  et al. Synthesis  of graphene
                                                3+
                                    3+
                                3+
                                        3+
                 ionomers containing Dy , Er , Eu , and Sm [J]. Journal of   oxide/rare-earth complex hybrid luminescent materials  via  π-π
                 Applied Polymer Science, 2010, 25(3): 359-368.     stacking and their pH-dependent luminescence[J]. Journal of Alloys
            [14]  Pei J, Liu X L, Yu W L, et al. Efficient energy transfer to achieve   & Compounds, 2016, 687: 95-103.

            （上接第 1865 页）                                           Journal of Separation Science, 2015, 38(24): 4233-4239.
                                                               [26]  Li Lu (李璐), Xiong Mingzhou (熊明洲), Xie Xin'an (解新安), et al.
            [20]  Kan X. Molecularly imprinted polymers  microsphere prepared by
                                                                   Synthesis of functional monomers based on chloramphenicol molecularly
                 precipitation polymerization for hydroquinone recognition[J]. Talanta,
                                                                   imprinted polymers and their screening and molecular recognition
                 2008, 75(1): 22-26.
            [21]  Dai J, Pan J, Xu  L,  et al. Preparation of molecularly  imprinted   properties[J]. Fine Chemicals (精细化工), 2013, 30(1): 22-27.
                                                               [27]  Lattach  Y, Archirel P, Remita S.  Influence of the chemical
                 nanoparticles with superparamagnetic susceptibility through atom
                                                                   functionalities of a molecularly imprinted conducting polymer on its
                 transfer radical emulsion polymerization for the selective recognition
                 of tetracycline from aqueous medium[J]. Journal of Hazardous   sensing  properties:  Electrochemical  measurements  and
                 Materials, 2012, 205/206: 179-188.                semiempiricaldftcalculations[J]. Journal of Physical Chemistry B,
            [22]  Gu X H,  Xu R,  Yuan G L,  et al. Preparation of chlorogenic acid   2012, 116(5): 1467-1481.
                 surface-imprinted magnetic  nanoparticles  and their  usage in   [28]  Abouzarzadeh A, Forouzani M, Jahanshahi M, et al. Synthesis and
                 separation of traditional chinese medicine[J]. Analytica Chimica   evaluation of uniformly sized nalidixic acid-imprinted  nanospheres
                 Acta, 2010, 675(1): 64-70.                        based on  precipitation polymerization method for analytical and
            [23]  Singh M, Kumar  A,  Tarannum N.  Water-compatible ‘aspartame’-   biomedical applications[J]. Journal of Molecular Recognition, 2012,
                 imprinted polymer grafted on silica surface for selective recognition   25(7): 404-413.
                 in aqueous solution[J]. Analytical and Bioanalytical Chemistry, 2013,   [29]  Chen Z, Ye L. Controlling size and uniformity of  molecularly
                 405(12): 4245-4252.                               imprinted nanoparticles using auxiliary template[J]. Journal of
            [24]  Jiang X H, Liu  Z M. Uiformly-sized,  molecularly imprinted   Molecular Recognition, 2012, 25(6): 370-376.
                 polymers for naproxen by precipitation polymerization[J]. Advanced   [30]  Fan J P, Li L, Tian Z Y, et al. Synthesis and evaluation of uniformly
                 Materials Research, 2011, 399/400/401: 713-717.   sized synephrine-imprinted microparticles prepared by precipitation
            [25]  Liu X, Zhang  W, Chen Z. Preparation of a novel molecularly   polymerization[J]. Separation Science and Technology, 2014, 49(2):
                 imprinted polymer for the highly selective extraction of baicalin[J].   258-266.