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第 10 期 宋宇淙,等: 保留取代基团的苯环选择加氢反应催化剂研究进展 ·2111·
工大学), 2013. hydrogenation over supported rhodium catalysts in supercritical carbon
[128] GELALA G, HAIDELIXI G. Method for preparing phenylcyclohexane: dioxide solvent[J]. The Chemical Record, 2019, 19(9): 1926-1934.
CN103228601A[P]. 2013-07-31. [146] FISCHER A, MALLAT T, BAIKER A. Synthesis of 1,
[129] CHENG S Y (程思雨). Study on the preparation of unsupported 4-diaminocyclohexane in supercritical ammonia[J]. Journal of
catalyst for cyclohexylbenzene via selective hydrogenation of Catalysis, 1999, 182(2): 289-291.
biphenyl[D]. Qingdao: China University of Petroleum (East China) [147] CAO J Y, HAN F G, WANG L G, et al. Ru/g-C 3N 4 as an efficient
[中国石油大学 (华东)], 2018. catalyst for selective hydrogenation of aromatic diamines to alicyclic
[130] OLIVAS A, GAXIOLA E, CRUZ-REYES J, et al. Transition-metal diamines[J]. RSC Advances, 2020, 10(28): 16515-16525.
influence (Fe, Co, Ni, Cu) on the MoWS catalyst for biphenyl [148] KIM H S, SEO S H, LEE H, et al. Ru-catalyzed hydrogenation of
hydrogenation[J]. Fuel Processing Technology, 2020, 204: 106410. aromatic diamines: The effect of alkali metal salts[J]. Journal of
[131] LIU R Q (刘入强), SHAN Y H (单玉华), FENG D T (封东廷), et al. Molecular Catalysis A: Chemical, 1998, 132(2/3): 267-276.
Preparation of copper modified nickel-based catalysts and their [149] ZENG Y K (曾永康), ZHANG Z X (张之翔), LI X H (李小虎),
catalytic hydrogenation performance of biphenyl[J]. Fine Chemicals et al. Catalytic synthesis of 1,4-diaminocyclohexane over Ru/CNTs
(精细化工), 2018, 35(8): 1320-1324, 1375. catalyst and study of reaction mechanism[J]. Industrial Catalysis (工
[132] ZHOU G (周刚). The preparation method of phenylcyclohexane: 业催化), 2017, 25(7): 77-82.
CN101209949[P]. 2008-07-02. [150] LIU C Y, ZHANG Y, CAI J G. Synthesis of Ru-silica aerogel as
[133] LI W, ZHAO Z P, LI J P, et al. Effects of Ni-loading on the efficient catalyst for hydrogenation of p-phenylenediamine to 1,
performance of Ni/SiO 2 catalysts for the highly selective hydrogenation of 4-cyclohexanediamine[J]. The Canadian Journal of Chemical
biphenyl to cyclohexylbenzene[J]. ChemistrySelect, 2021, 6(16): Engineering, 2019, 97(4): 917-923.
3897-3902. [151] WANG T (王涛), DING Y J (丁云杰), CHEN W M (陈维苗), et al.
[134] WANG J (王金). Synthesis of bisphenol A polycarbonate by solid Hydrogenation of o-phenylenediamine to 1,2-diaminocyclohexane
state polymerization[J]. New Chemical Materials (化工新型材料), over Ru/AC catalyst[J]. Petrochemical Technology (石油化工),
2016, 44(12): 204-206. 2015, 44(2): 192-197.
[135] FENG Z C (冯兆昌), YANG G C (杨桂成), RONG M Z (容敏智), [152] ZHAO H H, SONG H L, ZHAO J, et al. The reactivity and
et al. Synthesis and characterization of solid bisphenol A epoxy deactivation mechanism of Ru@C catalyst over hydrogenation of
resin[J]. Thermosetting Resin (热固性树脂), 2010, 25(6): 33-36. aromatics to cyclohexane derivatives[J]. Chemistry Select, 2020, 5:
[136] CHEN L X (陈立新), ZHAO Q H (赵庆贺), WANG R M (王汝敏), 4316-4327.
et al. Synthesis of novolak bisphenol A phenolic resin[J]. Adhesion [153] MA H X, CAI J G. Catalytic hydrogenation of 1,4-phenylenediamine
(粘接), 2006, (4): 14-16. to 1,4-cyclohexanediamine[J]. Russian Journal of Applied Chemistry,
[137] MAEGAWA T, AKASHI A, YAGUCHI K, et al. Efficient and 2014, 87: 397-403.
practical arene hydrogenation by heterogeneous catalysts under mild [154] YUE L (岳林), WANG M (王敏), HUANG S B (黄森彪), et al.
conditions[J]. Chemistry-A European Journal, 2009, 15(28): Catalyst for synthesizing 1,3-cyclohexanedimethylamine by hydrogenation
6953-6963. of m-xylylenediamine and preparation method thereof: CN112169832B[P].
[138] WANG K L (王开林), ZHANG Y J (张英杰), ZHANG L (张磊), et al. 2021-03-09.
Preparation of hydrogenated bisphenol A by catalytic hydrogenation [155] YANG Y M (杨延米). Study on ruthenium-based catalytic system
of bisphenol A[J]. Fine Petrochemicals (精细石油化工), 2007, (5): for selective hydrogenation of phenyldimethylamine to
39-44. 1,3-cyclohexamethyl amine[D]. Beijing: Beijing University of
[139] YEN C H, LIN H W, TAN C S. Hydrogenation of bisphenol A-Using Chemical Technology (北京化工大学), 2019.
a mesoporous silica based nano ruthenium catalyst Ru/MCM-41 and [156] KIM Y J, LEE J H, WIDYAYA V T, et al. Effect of alkali metal
water as the solvent[J]. Catalysis Today, 2011, 174(1): 121-126. nitrates on the Ru/C-catalyzed ring hydrogenation of m-xylylenediamine
[140] WANG J P (王骏鹏), YAO J L (姚健龙), SHI T W (施天伟), et al. to 1,3-cyclohexanebis(methylamine)[J]. Bulletin of the Korean
Preparation of Ru/C catalyst and its catalytic hydrogenation of Chemical Society, 2014, 35(4): 1117-1120.
bisphenol A[J]. Modern Chemical Industry (现代化工), 2016, 36(5): [157] JIN S S (金松寿). Organic catalysis[M]. Shanghai: Shanghai Science
61-64. and Technology Press (上海科学技术出版社), 1986.
[141] LIANG S B (梁胜彪), WU Z (吴中), XIE J Y (谢京燕), et al. [158] WANG J W (王建伟), MI Z T (米镇涛), ZHANG X W (张香文).
Catalytic hydrogenation of supported Ru/Al 2O 3 catalyst to prepare Noble metal aromatic saturation catalysts[J]. Progress in Chemistry
hydrogenated bisphenol A[J]. Energy Chemical Industry (能源化工), (化学进展), 2006, 18(8): 854-860.
2020, 41(3): 9-14. [159] STANISLAUS J, COOPER B H. Aromatic hydrogenation catalysis:
[142] KAPLAN R, ERJAVEC B, SENILA M, et al. Catalytic wet air A review[J]. Catalysis Reviews, 1994, 36(1): 75-123.
oxidation of bisphenol A solution in a batch-recycle trickle-bed [160] COOPER B H, DONNIS B. Aromatic saturation of distillates: An
reactor over titanate nanotube-based catalysts[J]. Environmental overview[J]. Applied Catalysis A: General, 1996, 137(2): 203-223.
Science and Pollution Research, 2014, 21(19): 11313-11319. [161] ANDERSON J R. Structure of metallic catalysts[M]. London:
[143] SU Y C, WANG C C, CHEN C Y. Preparing high ratio of trans/trans Academic Press, 1975.
2,2-bis(4-hydroxycyclohexyl)propane isomer by one-dimensional [162] SOMORJAI G A. Chemistry in two dimensional surfaces[J]. Journal
nickel-palladium catalyst[J]. Journal of the Taiwan Institute of of Catalysis, 1982, 77(2): 567-568.
Chemical Engineers, 2021, 129: 15-25. [163] QI S C (亓士超). The preparation of highly dispersive supported
[144] SAWAMA Y, MORI M, YAMADA T, et al. Hydrogen self-sufficient nickel catalyst for arene hydrogenation[D]. Xuzhou: China
arene reduction to cyclohexane derivatives using a combination of University of Mining and Technology (中国矿业大学), 2014.
platinum on carbon and 2-propanol[J]. Advanced Synthesis & [164] DU X (杜曦). The study on hydrogenation of hifferent arene in liquid
Catalysis, 2015, 357(16/17): 3667-3670. phase over Ru/AC, Ru-Pd/AC, Ru-Co/AC[D]. Chengdu: Sichuan
[145] SHIRAI M, HIYOSHI N, RODE C V. Stereoselective aromatic ring University (四川大学), 2004.