Page 124 - 201906

P. 124

·1130· 精细化工 FINE CHEMICALS 第 36 卷

Research & Development, 2003, 7(5): 769-773.
[5] Yokoyama A, Komiyama H, Inoue H, et al. The hydrogenation of
carbon monoxide by amorphous ribbons[J]. Journal of Catalysis,
1981, 68(2): 355-361.
[6] Xie S, Qiao M, Li H, et al. A novel Ru-B/SiO 2, amorphous catalyst
used in benzene-selective hydrogenation[J]. Applied Catalysis A:
General, 1999, 176(1): 129-134.

[7] Álvarez-Rodríguez J, Rodríguez-Ramos I, Guerrero-Ruiz A, et al.
图 8 Ru-W-B/NaY-IUP（1500） 0.6 催化剂使用 4 次后 TEM Influence of the nature of support on Ru-supported catalysts for
照片 selective hydrogenation of citral[J]. Chemical Engineering Journal,
Fig. 8 TEM micrographs of Ru-W-B/NaY-IUP (1500) 0.6 2012, 204-206(38): 169-178.
catalyst after four cycles [8] Wang S, Wei W, Zhao Y, et al. Ru-B amorphous alloy deposited on
mesoporous silica nanospheres: An efficient catalyst for D-glucose

hydrogenation to D-sorbitol[J]. Catalysis Today, 2015, 258: 327-336.
3 结论 [9] Zhang Z, Suo Y, He J, et al. Selective hydrogenation of ortho-
chloronitrobenzene over biosynthesized ruthenium-platinum
（1）在催化剂制备过程中，采用适量与适宜相 bimetallic nanocatalysts[J]. Industrial & Engineering Chemistry
对分子质量 PEG 对载体 NaY 进行预先涂覆处理， Research, 2016, 55(26): 7061-7068.
在 Ru-B 二元催化体系中引入 W，并在还原过程中 [10] Wang W Y, Yang Y Q, Bao J G, et al. Influence of ultrasonic on the
采用反加法和超声处理所制得的催化剂性能优良。 preparation of Ni-Mo-B amorphous catalyst and its performance in
phenol hydrodeoxygenation[J]. Journal of Fuel Chemistry &
（2）通过 XPS 表征可知，在 Ru-W-B 三元催化
Technology, 2009, 37(6): 701-706.
体系中，活性组分 Ru 与 W、载体 NaY 产生较强的 [11] Deng J F, Zhang X, Min E. Amorphous nickel-phosphorus alloy
电子作用，这种电子作用提高了催化剂活性。由 deposited on a support and its hydrogenation activity[J]. Applied
H 2 -TPD、TEM 表征手段证明，在催化体系中添加 W， Catalysis, 1988, 37: 339-343.
[12] Deng J F, Chen H. A novel amorphous Ni-W-P alloy powder and its
在还原过程中采用反加法，对 NaY 预先采用 PEG
hydrogenation activity[J]. Journal of Materials Science Letters, 1993,
进行涂覆处理，并使用超声波辅助制备催化剂，有 12(19): 1508-1510.
利于活性组分 Ru-B 粒子的分散，从而获得更多的 [13] Deng J F, Yang J, Sheng S S, et al. The study of ultrafine Ni-B and
活性位。 Ni-P amorphous alloy powders as catalysts[J]. Journal of Catalysis,
（3）制备的 Ru-W-B/NaY-IUP（1500） 0.6 催化 1994, 150(2): 434-438.
[14] Zheng L, Dai W L, Bo L, et al. The effect of boron on selective
剂展现出最优催化性能，其对苯二酚转化率达到
benzene hydrogenation to cyclohexene over ruthenium boride
99.7%，1，4-环己二醇选择性高达 92.3%，而 Ru 在 powders[J]. Journal of Catalysis, 1999, 187(1): 253-256.
NaY 上的负载量仅为 0.45 %。 [15] Deng J F, Li H, Wang W. Progress in design of new amorphous alloy
（4）本文催化剂作用下，对苯二酚加氢制 1， catalysts[J]. Catalysis Today, 1999, 51(1): 113-125.
[16] Qiao M H, Xie S H, Dai W L, et al. Ultrafine Ni-Co-W-B amorphous
4-环己二醇最佳 pH 为 9，但其稳定性较差，主要是
alloys and their activities in benzene hydrogenation to cyclohexane[J].
由于催化剂使用多次后，催化剂表面出现金属粒子 Catalysis Letters, 2001, 71(3/4): 187-192.
团聚现象，且活性组分稍有流失所致。 [17] Zong Baoning (宗保宁). Applications of the amorphous alloy
本文构筑的催化剂因制备方法简单、制备过程 catalyst and magnetically stabilized bed technology in petrochemical
processes[J]. Chinese Journal of Catalysis (催化学报), 2008, 29(9):
绿色环保、制备成本低而催化性能优越，将有助于
873-877
对苯二酚加氢制 1,4-环己二醇新工艺开发。
[18] Zuo Jiaqi (左佳齐), Ning Bin (宁彬). The birth of a new platform
Technology[J]. Sinopec (中国石化), 2006, (2): 13-16.
参考文献：
[19] Bai G, Wen X, Zhao Z, et al. Chemoselective hydrogenation of
[1] Gillespie L J, Liu T H. The reputed dehydrogenation of hydroquinone benzoic acid over Ni-Zr-B-PEG(800) nanoscale amorphous alloy in
by palladium black[J]. J Am Chem Soc, 1931, 53(11): 3969-3972. water[J]. Industrial & Engineering Chemistry Research, 2013, 52(6):
[2] And L F C, Chen Y W. Effect of additive (W, Mo, and Ru) on Ni-B 2266-2272.
amorphous alloy catalyst in hydrogenation of p-chloronitrobenzene [20] Zong B N, Mu Xuhong, Zhang X X, et al. Research, development,
[J]. Ind Eng Chem Res, 2006, 45(26): 8866-8873. and application of amorphous nickel alloy catalysts prepared by melt-
[3] Liu Zili (刘自力), Huang Xuanyan (黄旋燕), Dai Qianwen (代倩雯). quenching[J]. Chinese Journal of Catalysis, 2013, 34(5): 828-837.
Hydrogenation of nitrobenzene to synthesize aniline over [21] Bhosale R R, Pujari S R, Lande M K, et al. Photocatalytic activity
Ni-Mo-PEG amorphous[J]. Fine Chemicals (精细化工), 2014, 31(6): and characterization of sol-gel-derived Ni-doped TiO 2-coated active
722-726. carbon composites[J]. Applied Surface Science, 2012, 261(1): 835-841.
[4] And S P B, Sawant S B. Kinetics of liquid-phase catalytic [22] Ju Jiangyue (鞠江月), Wang Yaming (王亚明), Jiang Lihong (蒋丽
hydrogenation of benzophenone to benzhydrol[J]. Organic Process 红), et al. Hydrogenation of turpentine catalyzed by NiCoB/TiO 2

119 120 121 122 123 124 125 126 127 128 129