Page 32 - 《精细化工)》2023年第10期
P. 32

·2110·                            精细化工   FINE CHEMICALS                                 第 40 卷

            [92]  ZHAO H  H, SONG H L,  ZHAO J,  et al. The reactivity and   catalyst toward polystyrene hydrogenation[J]. Journal of the Taiwan
                 deactivation mechanism of Ru@C  catalyst over hydrogenation of   Institute of Chemical Engineers, 2019, 97: 119-127.
                 aromatics to cyclohexane derivatives[J]. ChemistrySelect, 2020,   [111]  FENG M, LU H, LI C Y, et al. Carbon nanotube modified ceramic
                 5(14): 4316-4327.                                 foams as structured palladium supports for polystyrene hydrogenation[J].
            [93]  XU Y, WU C G, WANG Y, et al. Cooperation between Pt and Ru on   Industrial & Engineering Chemistry Research, 2019, 58(25):
                 RuPt/AC bimetallic catalyst in the hydrogenation of phthalates[J].   10793-10803.
                 Chinese Chemical Letters, 2021, 32(1): 516-520.   [112]  CHEN J,  HU Y  D, CAI A F,  et al. The  mesopore-elimination
            [94]  ZHAO  Y F, LI  W S,  REHMAN M  U,  et al.  Roles of N  on the   treatment and silanol-groups recovery for  macroporous silica
                 N-doped Ru/AC catalyst in the hydrogenation of phthalate esters[J].   microspheres and its application as an  efficient support for
                 Research on Chemical Intermediates, 2022, 48(7): 2987-3006.   polystyrene hydrogenation[J]. Catalysis Communications, 2018, 111:
            [95]  LI W S (李文思), WANG Y (王岩), XU Y (徐艳), et al. Study on   75-79.
                 Ru-Ni  bimetallic  catalyst  for  phthalate  hydrogenation[J].  [113]  CUI C S (崔春生), JING  W (景文), XIAO B (肖博),  et al.
                 Chemical Industry and Engineering (化学工业与工程), 2021, 38(5):   Preparation of a saturated hydrogenation Pd catalyst and method for
                 27-34.                                            catalyzing the hydrogenation of polystyrene: CN107213895A[P].
            [96]  TADA S, KIKUCHI R, TAKAGAKI A, et al. Study of RuNi/TiO 2   2017-09-29.
                 catalysts for selective CO  methanation[J]. Applied Catalysis B   [114]  LIU Y (刘言), CUI C S (崔春生), JING W (景文), et al. A kind of
                 Environmental, 2013, 140: 258-264.                preparation  of  bimetallic catalyst and method for  catalyzing
            [97]  JIA H M, YANG Z X, YUN X H, et al. Confined NiRu bimetallic   polystyrene hydrogenation: CN109482180A[P]. 2019-03-19.
                 catalysts for the hydrogenation of dimethyl terephthalate to dimethyl   [115]  LI C Y (李晨阳), FENG M (冯淼), CUI H F (崔海峰),  et al.
                 cyclohexane-1,4-dicarboxylate[J].  Industrial  &  Engineering  Preparation of carbon nanotube catalyst on structure-modified
                 Chemistry Research, 2019, 58(51): 22702-22708.    cordierite monolith for polystyrene hydrogenation[J]. CIESC Journal
            [98]  MALZ R E, GREENFIELD H. Hydrogenation of N-aryl carbamates   (化工学报), 2017, 68(7): 2746-2755.
                 to  N-alicyclic  carbamates[J]. Industrial & Engineering  Chemistry   [116]  FENG M, LUO Z  H,  YI S,  et al. Palladium supported on carbon
                 Product Research and Development, 1978, 17(4): 358-362.   nanotubes decorated nickel foam  as the catalytic  stirrer in
            [99]  MALZ R  E, GREENFIELD H. Nuclear hydrogenation  of  N-aryl   heterogeneous hydrogenation of polystyrene[J]. Industrial &
                 carbamates: US4069240[P]. 1978-01-17.             Engineering Chemistry Research, 2018, 57(48): 16227-16238.
            [100]  SONG Y C, DING X S, LI F, et al. A novel and green synthesis of   [117]  ZHOU H Y (周宏勇), QIANG M H (强明辉), LI J Z (李军章), et al.
                 methylcyclohexane diisocyanate: Reaction  properties,  deactivation   Preparation of magnetic nano-ruthenium catalyst and its catalytic
                 and regeneration of Rh/γ-Al 2O 3 catalyst in benzene ring selective   performance for catalytic hydrogenation of polystyrene[J]. Polymer
                 hydrogenation[J]. Applied Catalysis A: General, 2023, 651: 119017.   Materials Science and Engineering (高分子材料科学与工程), 2011,
            [101]  NAKATANI H, NITTA K, UOZUMI T,  et al. Preparation and   27(11): 73-76,80.
                 characterization of hydrogenated  syndiotactic polystyrene[J].   [118]  ZHANG  H W (张宏伟), GOU L (苟雷), LIANG M X  (梁梦欣),
                 Polymer, 1999, 40(6): 1623-1626.                  et al. Optimization of heterogeneous catalytic hydrogenation process
            [102]  GEHLSEN M D, BATES F S. Heterogeneous catalytic hydrogenation of   of  polystyrene and catalyst regeneration  performance[J]. Chemical
                 polystyrene: Thermodynamics of poly(vinylcyclohexane)-containing   Reaction Engineering and Technology (化学反应工程与工艺),
                 diblock copolymers[J]. Macromolecules, 1993, 26(16): 4122-4127.   2021, 37(5): 385-394.
            [103]  ALMUSAITEER  K A. Effect of supports  on the catalytic   [119]  HUCUL D A, HAHN S F. Catalytic hydrogenation of polystyrene[J].
                 hydrogenation  of  polystyrene[J]. Topics in Catalysis, 2012, 55(7):   Advanced Materials, 2000, 12(23): 1855-1858.
                 498-504.                                      [120] GOU L (苟雷), WANG Y X (王亚溪), XIONG S H (熊邵辉), et al.
            [104]  HAN K Y, MENG C, ZHU Z W, et al. Hydrogenation of commercial   Research progress in  heterogeneous catalytic hydrogenation of
                 polystyrene over Pd/BaSO 4 catalysts: Effect of carrier structure[J].   polystyrene[J]. Polymer Materials Science and Engineering (高分子
                 Transactions of Tianjin University, 2014, 20(4): 282-291.   材料科学与工程), 2021, 37(8): 174-181.
            [105]  HAN K Y, ZUO  H R, ZHU Z W,  et al. High performance of   [121]  DEVLIN J J,  KIRCHER S, KOZEN B  G,  et al. Comparison  of
                                                                                          ®
                                                                         ®
                 palladium nanoparticles supported  on carbon  nanotubes for  the   ChitoFlex , CELOX TM , and QuikClot  in control of hemorrhage[J].
                 hydrogenation of commercial polystyrene[J]. Industrial &   Journal of Emergency Medicine, 2011, 41(3): 237-245.
                 Engineering Chemistry Research, 2013, 52(50): 17750-17759.   [122]  ARNAUD F, TERANISHI K, OKADA T,  et al. Comparison of
            [106]  QIAN J F (钱俊峰), GUO X R (郭欣荣),  LIU P (刘平), et  al.   combat Gauze and TraumaStat in two severe groin injury models[J].
                 Hydrogenation  of polystyrene to  polycyclohexyl ethylene over   Journal of Surgical Research, 2011, 169(1): 92-98.
                 Pd/C[J]. Modern Chemical Industry ( 现代化工 ), 2022, 42(8):   [123]  YIN C L (殷长龙), CHENG S Y (程思雨), LIU C G (刘晨光), et al.
                 179-184.                                          A kind  of method for  preparing cyclohexylbenzene by selective
            [107]  NESS J S, BRODIL J C, BATES F S, et al. Molecular weight effects   hydrogenation of biphenyl: CN107185548A[P]. 2017-09-22.
                 in the hydrogenation of model polystyrenes using platinum supported   [124]  GELMAN F, AVNIR D, SCHUMANN H,  et al. Sol-gel entrapped
                 on wide-pore silica[J]. Macromolecules, 2002, 35(3): 602-609.   Rh 2Co 2(CO) 12: A catalyst precursor for efficient arene hydrogenation[J].
            [108]  PAN D, SHI G, ZHANG T, et al. New understanding and controllable   Molecular Catalysis, 2001, 171(1): 191-194.
                 synthesis of silica hollow microspheres with size-tunable penetrating   [125]  ZHEN Y,  WAN  S R, SHI R F,  et al. Atom transfer radical
                 macroporous shells as a superior support for polystyrene   polymerization of  solketal acrylate using cyclohexanone as the
                 hydrogenation catalysts[J]. Journal of Materials Chemistry A, 2013,   solvent[J]. Macromolecular  Chemistry & Physics, 2005, 206(5):
                 1(34): 9597-9602.                                 607-612.
            [109]  HAN K Y, CAO G P, ZUO H R, et al. Hydrogenation of commercial   [126]  TSUKINOKI T, KANDA T, LIU G  B,  et al. Organic reaction in
                 polystyrene on Pd/TiO 2 monolithic ceramic foam catalysts: Catalytic   water. Part 3: A facile method for reduction of aromatic rings using a
                 performance and  enhanced internal  mass transfer[J]. Reaction   Raney Ni-Al alloy in dilute aqueous alkaline solution  under mild
                 Kinetics, Mechanisms and Catalysis, 2015, 114(2): 501-517.   conditions[J]. Tetrahedron Letters, 2000, 41(31): 5865-5868.
            [110]  FENG M, LUO Z  H, CAO  G P,  et al. Tunable growth  of carbon   [127]  SUN L (孙亮). Study for selective hydrogenation of hydroquinone
                 nanotubes forests on nickel foam as structured support for palladium   and biphenyl[D]. Dalian: Dalian University of Technology (大连理
   27   28   29   30   31   32   33   34   35   36   37