·148·                             精细化工   FINE CHEMICALS                                  第 36 卷

                 property and electronic structure of TiO 2 nanomaterials for   effect of visible-light-induced PANI/TiO 2 and PoPD/TiO 2 nanocomposites
                 renewable energy applications[J]. Chemical Reviews, 2014, 114(19):   [J]. Environmental Chemistry (环境化学), 2016, 35(1): 102-111.
                 9662-9707.                                    [19]  Yang Jianli (杨建利), Du Meili (杜美利), Yu Chunxia (于春侠), et
            [11]  Reyes C D, Rodríguez G G, Espinosa P M E, et al. Phase-pure TiO 2   al. Preparation of activated carbon/polyaniline composites and study
                 nanoparticles: Anatase, brookite and rutile[J]. Nanotechnology, 2008,   on adsorption properties[J]. Applied Chemical Industry (应用化工),
                 19(14): 145605-145615.                            2017, 46(6): 1234-1236.
            [12]  Wang D, Zhou Z H, Yang H, et al. Preparation of TiO 2 loaded with   [20] Jing Xiabin (景遐斌), Wang Lixiang (王利祥), Wang Xianhong (王
                 crystalline nano Ag by a one-step  low-temperature hydrothermal   献红),  et al. Synthesis, structure, properties and applications of
                 method[J]. Journal of Materials Chemistry, 2012, 22(32): 16306-16311.     conducting polyaniline[J]. Acta Polymerica Sinica (高分子学报),
            [13]  Liang Yanping (梁燕萍), Jia Jianping (贾剑平), Shi Qizhen (史启  2005, 12(5): 655-663.
                 祯 ),  et al. The photocatalytic properties and electrochemical   [21]  Cheng Chuanlin (程传麟), Xia Tianming (夏天明), Qin Fang (秦芳),
                                   2+
                 impedance spectroscopy of Co  doped TiO 2 thin film[J]. Chinese J   et al. Study on  preparation  of composite particles of rectorite and
                 Inorg Chem (无机化学学报), 2010, 26(4): 633-638.        adsorption performance[J]. Journal of Wuhan Institute of Technology
            [14]  Zare M, Mortezaali A, Shafiekhani A. Photoelectrochemical   (武汉工程大学学报), 2011, 33(9): 61-63, 67.
                 determination of shallow and deep trap states of platinum-decorated   [22]  Wei Yijun (魏亦军), Chu Daobao (褚道葆), Yao Wenli (姚文俐).
                 TiO 2 nanotube arrays for photocatalytic applications[J]. Journal of   Preparation and electrochemical behavior  of complex film of
                 Physical Chemistry C, 2016, 120(17): 9017-9027.     nanocrystalline TiO 2/polyaniline[J]. Chinese Journal of Synthetic
            [15]  Hosseini M G, Momeni M M. Platinum nanoparticle-decorated TiO 2,   Chemistry (合成化学), 2004, 12(1): 69-72.
                 nanotube arrays as new highly active and non-poisoning catalyst for   [23]  Huang Lihua (黄丽华), Zhao Feng (赵峰), Chen Jianmin (陈建民).
                 photoelectrochemical oxidation of galactose[J]. Applied Catalysis A   Studies on the photodegradation of direct blue on nanosized titania
                 General, 2012, 427-428(10): 35-42.                [J]. Environmental Chemistry (环境化学), 2003, 22(4): 359-363.
            [16]  Chu Daobao (褚道葆), Chen Zhongping (陈忠平), Wu Hezhen (吴何  [24]  Huang Hui (黄惠), Zhou Jiyu (周继禹), Xu Jinquan (许金泉), et al.
                 珍),  et al. Preparation and electrochemical properties of carbon   Study of compound oxidanton on synthesis of conducting polyaniline[J].
                 nanotube/nanocrystalline TiO 2-polyaniline complex film electrode   Applied Chemical Industry (应用化工), 2008, 37(10): 1143-1146.
                 [J]. CIESC Journal   (化工学报), 2007,58(6): 1568-1574.     [25]  Duan F, Zhang Q H, Shi D J,  et al. Enhanced visible light
            [17]  Huang Huaiguo (黄怀国), Zheng Zhixin (郑志新), Luo Jin (罗瑾), et   photocatalytic activity of Bi 2WO 6 via modification with polypyrrole
                 al. The photoelectrochemistry of TiO 2-polyaniline composite film[J].   [J]. Applied Surface Science, 2013, 268(1): 129-135.
                 Electrochemistry (电化学), 2001, 7(1): 102-108.     [26]  Ghosh S, Kouamé N A, Ramos L,  et al. Conducting polymer
            [18]  Yang Chuanxi (杨传玺), Wang Weiliang (王炜亮), Dong Wenping   nanostructures for photocatalysis under visible light[J].  Nature
                 (董文平), et al. Oxidation mechanism and synergetic-photosensitization   Materials, 2015, 14(5): 505-511.


            （上接第 141 页）                                            2011-07-20.
                                                               [8]   Xu Jiali (徐佳丽), Tang Jie (汤杰), Zheng Rulan  (郑如兰),  et al.
                （3）该合成产物具有良好的鞣制效应，是一种                              Study on tanning properties of several chromium-free tanning
                                                                   agents[J]. China Leather (中国皮革), 2015, 44(16): 9-15.
            新型的有机合成鞣剂，研究结果可以为开发新型无
                                                               [9]   Cui Lu (崔璐), Qiang Xihuai (强西怀), Chen Miaomiao (陈苗苗), et
            铬鞣剂及其鞣法在理论与实践上提供借鉴。                                    al. Chemical composition and application technology of TANFOR
                                                                                                           TM
                                                                   Series tanning agents[J]. China Leather (中国皮革), 2017, 46(7): 8-15.
            参考文献：                                              [10]  Li Jing (李靖), Shi Bi (石碧), Zhang Jing (张净),  et al. Study on
                                                                   environmental performance of non-pickling chrome-free tanning
            [1]  Chen  Wuyong  (陈武勇), Li Guoying (李国英). Tanning chemistry[M].
                 Beijing (北京): China Light Industry Press (中国轻工业出版社),   agent TWT[J]. Western Leather (西部皮革), 2014, 35(2): 20-23.
                                                               [11]  Renekin C, Gamalino R, Temmark L,  et al. Non-metallic tanning
                 2011: 2.
                                                                   methods: CN102933725B[P]. 2013-02-13.
            [2]   Sundarapandiyan S, Brutto P E, Siddhartha G, et al. Enhancement of
                                                               [12] Wei Shilin (魏世林). Tanning technology[M]. Beijing (北京): China
                 chromium uptake in tanning  using oxazolidine[J]. Journal of
                 Hazardous Materials, 2011, 190(1/2/3): 802-809.   Light Industry Press (中国轻工业出版社), 2012: 129-147.
            [3]   Fabiani C, Ruscio F, Spadoni M, et al. Chromium(Ⅲ) salts recovery process   [13]  Published by the National Development and Reform Commission of
                                                                   the People's Republic of China (中华人民共和国发展和改革委员
                 from tannery wastewaters[J]. Desalination, 1997, 108(1): 183-191.
                                                                   会). Leather physical  and mechanical testing—Determination of
            [4]   Rao J R, Kanthimathi M, Thanikaivelan P, et al. Pickle—free chrome
                 tanning using a polymeric synthetic tanning agent for cleaner leather   shrinkage temperature:QB/T 2713—2005 [S]. Beijing (北京):China
                 processing[J]. Clean Technologies and Environmental Policy, 2004,   Light Industry Press (中国轻工业出版社), 2005.
                 6(4): 243-249.                                [14] Yang  Guibao  (杨贵宝).  Study on  the reaction between aliphatic
            [5]   Yu Congzheng (俞从正), Sun Genxing (孙根行), Guo Shengwei (郭  polyamines and cyanuric chloride  and synthesis of  multi-arm
                 生伟). A preliminary study on the origin of hexavalent chromium in   dendritic initial coresD. Suzhou (苏州): Suzhou University (苏州大
                 leather[J]. China Leather (中国皮革), 2002, 31(3): 25-29.   学), 2009.
            [6]   Ma Jianzhong ( 马建中 ). Synthetic principles and application   [15]  Published by the National Development and Reform Commission of
                 technology of leather chemicals[M]. Beijing (北京):China Light   the People's Republic of China (中华人民共和国发展和改革委员
                 Industry Press (中国轻工业出版社), 2009: 100-204.         会). Leather physical  and mechanical testing—Determination of
            [7]   Cao Yong (曹勇),  Deng Yu (邓宇), Jia Jia (贾佳),  et al. Leather   shrinkage temperature：QB/T 1873—2010 [S]. Beijing (北京): China
                 tanning preparation and application method thereof: CN102127605B[P].     Light Industry Press (中国轻工业出版社), 2010.