·344·                             精细化工   FINE CHEMICALS                                 第 39 卷

            本实验制备的 yM/TiO 2 催化剂经济高效、易于分离                           (ethylenimine)/graphene nanocomposite catalyst[J]. Fine Chemicals
                                                                   (精细化工), 2018, 35(9): 1496-1503.
            回收、使用性能稳定，为工业化生产高质量的
                                                               [18]  ZHOU Y W (周郁文), SU T M (苏通明), JIANG Y X (蒋月秀), et al.
            NMMO 提供了参考。                                            Effect of Co loading amount on catalytic performance of Co/TiO 2
                                                                   catalysts for CO 2 methanation[J]. Fine Chemicals (精细化工), 2018,
            参考文献：                                                  35(1): 72-80.
                                                               [19]  WANG M, GUO  D J, LI H L. High activity of novel Pd/TiO 2
            [1]   LEWANDOWSHI  Z. Application of a linear synthetic polymer to
                 improve the properties of cellulose fibers made by the NMMO   nanotube catalysts for methanol electro-oxidation[J]. Journal of Solid
                 process[J]. Journal of Applied Polymer Science, 2002, 83: 2762-2773.   State Chemistry, 2005, 178(6):1996-2000.
            [2]   ICHWAN M, SON T. Preparation  and characterization of dense   [20]  ROSENAU T, POTTHAST A, SIXTA H, et al. The chemistry of side
                 cellulose film for  membrane  application[J]. Journal of Applied   reactions and  byproduct formation in the system  NMMO/cellulose
                 Polymer Science, 2012, 124: 1409-1418.            (Lyocell process)[J]. Progress in Polymer Science, 2001, 26(9):
            [3]   SAYYED A J, MOHITE L V, DESHMUKH N A, et al. Intensification   1763-1837.
                 of lyocell dissolution process and dope characteristics using preswelled   [21] GUO Y X，CA I J，SUN T Q, et al.The purification process and side
                 cellulosic  pulp[J]. Chemical Engineering and  Processing-Process   reactions in the  N-methylmorpholine-N-oxide (NMMO) recovery
                 Intensification, 2020, 148: 107826.               system[J]. Cellulose, 2021, 28(12): 7609-7617.
            [4]   SAYYED A J, MOHITE L V,  DESHMUKH N A,  et al. Structural   [22]  LI F X (李凡修), LU X  H (陆晓华), MEI P (梅平). Research
                 characterization of cellulose pulp in aqueous NMMO solution under   progress on the mechanism of the effect of metal ion doping on the
                 the process conditions  of lyocell slurry[J]. Carbohydrate Polymers,   crystal transformation of nano-TiO 2[J]. Materials Guide (材料导报),
                 2019, 206: 220-228.                               2006, (9): 13-15, 25.
            [5]   ADELWOHRER C, YONEDA Y, NAKATSUBO F, et al. Synthesis   [23]  WANG C L, WANG D D, YANG Y, et al. Enhanced CO oxidation on
                 of the perdeuterated cellulose solvent NMMO[J]. Journal of Labelled   CeO 2/Co 3O 4 nanojunctions derived from annealing of metal organic
                 Compounds and Radiopharmaceuticals, 2008, 51: 28-32.   frameworks[J]. Nanoscale, 2016, 8(47): 19761-19768.
            [6]   HEINZ S H. Process for producing aqueous  N-methylmorpholine-   [24]  SU Y, WANG S P, ZHANG T Y, et al. Comparative study on catalytic
                 N-oxide solutions:US4748241 A[P]. 1988-05-31.     performances for low-temperature CO oxidation of Cu-Ce-O and
            [7]   SUN Y J (孙英娟). Synthesis of  N-methylmorpholine-N-oxide   Cu-Co-Ce-O catalysts[J]. Catalysis Letters, 2008, 124: 405-412.
                 (NMMO)[J]. Journal of North China Institute of  Science and   [25]  TANG C W, KUO C C, KUO M C, et al. Influence of pretreatment
                 Technology(华北科技学院学报), 2007, 4 (2):33-35.          conditions on low-temperature  carbon  monoxide oxidation over
            [8]   XU J  H (徐军辉), LIU Y  J  (刘弈君), FENG Y F (封云芳),  et al.   CeO 2/Co 3O 4 catalysts[J]. Applied Catalysis A: General, 2006, 309(1):
                 Synthesis of methylmorpholine oxide[J]. Journal of Zhejiang   37-43.
                 University of Technology (浙江理工大学学报), 2008, 25(4): 402-405.   [26]  XING X W (刑向文), ZHANG X Y(张肖阳), TANG J Y(汤吉昀), et al.
            [9]   REN X Y (任锡玉). Study on catalytic oxidation of tertiary amines   Study on  H 2S selective  catalytic oxidation over Fe 2O 3/TiO 2 catalyst[J].
                 by titanium silicon hollow microspheres[D]. Beijing: Paper of China   Journal of Coal (煤炭学报),2021.DOI: 10.13225/j.cnki.jccs.2021.0894.
                 University of Petroleum (中国石油大学), 2010.       [27]  ROBABEH  B, MOHAMEDB N  M, KAIT C F,  et al. Effect of
            [10]  ABEDI S, MORSALI  A. Ordered mesoporous metal-organic   preparation parameters on optical properties of Cu and Ni doped TiO 2
                 frameworks incorporated with amorphous TiO 2  as photocatalyst  for   photocatalyst-Science direct[J]. Procedia  Engineering, 2016, 148:
                 selective aerobic oxidation in  sunlight irradiation[J]. American   151-157.
                 Chemical Society, 2014, 4:1398-1403.          [28]  GU R C (谷荣彩), YE L P (叶利萍), YANG B X (杨丙星), et al.
            [11]  LI Y W (李永威), LI M C (李岷池), FU C B (付成波),  et al. A   Preparation of inverse уCeO 2/Cu χCo 1– χO δ catalysts and their catalytic
                 preparation  method  of  N-methylmorpholine-N-oxide:   performance for CO oxidation[J]. Fine Chemicals (精细化工), 2020,
                 ZL201910661910.7[P]. 2021-04-06.                  37(3): 540-548.
                                                                                                         2+
            [12]  LI Y W (李永威), LI M C (李岷池), LIU J W (刘建伟), et al. An   [29]  YAMASHITA T,  HAYES P.  Analysis of XPS  spectra  of  Fe and
                                                                    3+
                 optimized preparation method of  N-methylmorpholine-N-oxide:   Fe ions in oxide materials[J]. Applied Surface Science,2008,254:
                 ZL201910933308.4[P]. 2021-04-06.                  2441-2449.
            [13]  ZHANG S H, LI H H, WANG S Y, et al. Bacteria-assisted synthesis   [30]  HAWN D D, DEKOVEN B M.Deconvolution is a correction for
                 of nanosheet-assembled  TiO 2  hierarchical architectures  for constructing   photoelectron elastic energy losses in the core level XPS spectra of
                 TiO 2-based composites for  photocatalytic and electrocatalytic   iron[J]. Surface and Interface Analysis, 1987, 10: 63-74.
                 applications[J]. Applied Materials & Interfaces, 2019, 11(40): 37004-   [31]  ZHANG D L (张德利), HUANG Y P (黄英平), LUO G F (罗光福),
                 37012.                                            et al. Research progress  of Fenton and photo Fenton  reactions  [J].
            [14]  CHEN Q L, ZHANG Y L, ZHANG D D, et al. Ag and N co-doped   Environmental Chemistry (环境化学), 2006, 25(2): 121-126.
                 TiO 2 nanostructured photocatalyst for printingand dyeing wastewater[J].   [32]  XU Z M (许振民), ZHENG  R (郑茹), CHEN  Y (陈瑶),  et al.
                 Journal of Water Process Engineering, 2017, 16: 14-20.   Ordered mesoporous Fe/TiO 2 with light enhanced photo-Fenton
            [15]  JIANG J H (姜聚慧), LI P P (李培培),  LIU S N (刘胜男).   activity[J]. Chinese Journal of Catalysis (催化学报), 2019, 40(5):
                 Preparation and properties of highly electrochemically active   631-637.
                 SnO 2/TiO 2  hollow microspheres[J]. Chinese Journal of  Inorganic   [33]  FAN D K (范德锴), WU  Z Y  (吴志园),  WU H X (吴怀欣),  et
                 Chemistry (无机化学学报), 2019, 35(12): 2217-2225.      al.Preparation of FeOCl-COF  and its application in heterogeneous
            [16]  ZAHID R, MANZOOR M, RAFIQ A, et al. Influence of Fe doping   Fenton reaction[J]. Chemical Reagents (化学试剂), 2021, 43(12):
                 on structural, optical and magnetic properties of TiO 2 nanoparticles[J].   1651-1656.
                 Electronic Materials Letters, 2018, 14(5): 587-593.   [34]  SAQUIB M, TARIQ M A, HAQUE  M M,  et al. Photocatalytic
            [17] SU C (苏策), ZHANG H B (张红博), CHANG K S (常开善), et al.    degradation of disperse blue 1 using UV/TiO 2/H 2O 2 process[J].
                 Preparation and properties of nickel-loaded titanium dioxide/poly   Journal of Environmental Management, 2008, 88(2): 300.