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第 8 期张震威，等: Nb 2 O 5 纳米材料对催化氢化肉桂醛的影响 ·1337·

3 结论 mesoporous silica[J]. Catalysis Communications, 2012, (28): 42–46.
[11] Ramos-Fernández E V. Enhancing the catalytic performance of
Pt/ZnO in the selective hydrogenation of cinnamaldehyde by Cr
使用 Pd/W-Nb 2 O 5 和 Pd/S-Nb 2 O 5 两种催化剂氢
addition to the support[J]. Journal of Catalysis, 2008, (258): 52–60.
化还原 CMA 生成 HCMA，考察了催化剂的活性和 [12] Han X X, Zhou R X, Yue B H, et al. Selective hydrogenation of
选择性。Pd/W-Nb 2 O 5 对 CMA 的转化率为 99%， cinnamaldehyde over Pt/ZrO 2 catalyst modified by Cr, Mn, Fe, Co
and Ni[J]. Catalysis Letters, 2006, (3/4): 157-161.
HCMA 选择性为 65%。Pd/S-Nb 2 O 5 在相同条件下，
[13] Bhogeswararao S, Srinivas D. Intramolecular selective hydrogenation
对 CMA 的转化率为 98%，HCMA 选择性为 84%。 of cinnamaldehyde over CeO2 –ZrO2-supported Pt catalysts. Journal
由于 W-Nb 2 O 5 表面酸性过强，导致反应中副反应产 of Catalysis, 2012, (285): 31-40.
[14] Abu-Reziq R. Platinum Nanoparticles Supported on Ionic Liquid-
物增多，HCMA 选择性变低。提高反应温度或 H 2
Modified Magnetic Nanoparticles: Selective Hydrogenation
压力，可提高 CMA 的转化率，但 HCMA 选择性降 Catalysts[J]. Adv Synth Catal, 2007, 349: 2145-2150.
低。热处理温度越高，Pd/S-Nb 2 O 5 活性降低，这是 [15] Anuja N, Vlad P, Antonio B G, et al. Mild and Selective Catalytic
Hydrogenation of the C==C Bond in α,β-Unsaturated Carbonyl
因为 Pd 颗粒烧结增大以及 Nb 2 O 5 结晶度提高，BET Compounds Using Supported Palladium Nanoparticles[J].
下降，活性位点减少。 Chemistry-A European Journal, 2016, 21(22): 7184-7189.
[16] Maria A,Galletti R. New Palladium catalysts on polyketone prepared
参考文献： through different smart methodologies and their use in the
hydrogenation of cinnamaldehyde[J]. Applied Catalysis A: General,
[1] Neri G, Arrigo I, Corigliano F, et al. Selective hydrogenation of
cinnamaldehyde on Pt and Pt-Fe catalysts supported on Zeolite P[J]. 2012, (447-448): 49-59.
Catal Lett, 2011, (141): 1590-1597. [17] Paganelli S. Aqueous Biphasic hydrogenations catalyzed by new
[2] Lashdaf M, Nieminen V, Tiitta M. Role of acidity in hydrogenation of biogenerated Pd-polysaccharide species[J]. Applied Catalysis A:
cinnamaldehyde on platinum beta zeolite[J]. Microporous and General, 2013, (451): 144-152.
Mesoporous Materials, 2004, (75): 149-158. [18] Gao Y. Facile Synthesis of Polyaniline-Supported Pd Nanoparticles and
[3] Chatterjee M, Ikushima Y, Zhao F. Completely selective Their Catalytic Properties toward Selective Hydrogenation of Alkynes
hydrogenation of trans-cinnamaldehyde to cinnamyl alcohol and Cinnamaldehyde[J]. Chem Mater, 2008, 20: 2839-2844.
promoted by a Ru–Pt bimetallic catalyst supported on MCM-48 in [19] Shah M S, Guin D, Manorama S V. Pd@PEG-PU polymer networks:
supercritical carbon dioxide[J]. New J Chem, 2002, 27, 510-513. A convenient catalyst for hydrogenation and Suzuki coupling
[4] Handjani S, Marceau E, Blanchard J. Influence of the support reactions[J]. Materials Chemistry and Physics, 2010, (124): 664-669.
composition and acidity on the catalytic properties of mesoporous [20] Niu M M, Wang Y H, Li W J,et al. Thermoregulated
SBA-15, Al-SBA-15, and Al 2O 3-supported Pt catalysts for poly(ethylene-glycol) biphasic system with Pd nanoparticle catalysts
cinnamaldehyde hydrogenation[J]. Journal of Catalysis, 2011, (282): for selective hydrogenation of cinnamaldehyde[J]. Chinese journal of
228-236. catalysis, 2013, (34): 674-678.
[5] Liu Z, Tan X L, Li J, et al. Easy synthesis of bimetal PtFe-containing [21] Shi H, Xu N, Zhao D, et al. Immobilized PVA-stabilized gold
ordered mesoporous carbons and their use as catalysts for selective nanoparticles on silica show an unusual selectivity in the hydrogenation
cinnamaldehyde hydrogenation[J]. New J Chem, 2013, 37, of cinnamaldehyde[J]. Catalysis Communications, 2008, (9):
1350-1357. 1949-1954.
[6] Plomp A J, Vuori H. Particle size effects for carbon nanofiber [22] Huang G,Yang Q H, Xu Q, et al. Polydimethylsiloxane Coating for a
supported platinum and ruthenium catalysts for the selective Palladium/MOF Composite: Highly Improved Catalytic Performance
hydrogenation of cinnamaldehyde[J]. Applied Catalysis A: General, by Surface Hydrophobization[J]. Angewandte Chemie International
2008, (351): 9-15. Edition. 2016, 26(55): 7379-7383.
[7] Bruno F M, Sergio Morales-T, Agustín F P-C. Preparation of carbon [23] Nie R F, Miao M, Du W C, et al. Selective hydrogenation of CC bond
aerogel supported platinum catalysts for the selective hydrogenation over N-doped reduced graphene oxides supported Pd catalyst[J].
of cinnamaldehyde[J]. Applied Catalysis A: General, 2012, Applied Catalysis B: Environmental, 2016, (180): 607-613.
(425-426): 161-169. [24] Kołodziej M, Drelinkiewicz A, Lalik E, et al. Activity/selectivity
[8] Ramos-Fernandez E V. Selective Hydrogenation of Cinnamaldehyde control in Pd/HxMoO 3 catalyzed cinnamaldehyde hydrogenation[J].
over (111) Preferentially Oriented Pt Particles Supported on Applied Catalysis A: General, 2016, (515): 60-71.
Expanded Graphite[J]. Catal Lett, 2009, (133): 267-272. [25] Zhang Z W, Zhang G, He L, et al. Shape-Dependent Acidity and
[9] Vu H, Gonçalves F. Bimetallic catalysis on carbon nanotubes for the Photocatalytic Activity of Nb 2O 5 Nanocrystals with an Active TT
selective hydrogenation of cinnamaldehyde[J]. Journal of Catalysis, (001) Surface[J]. Angew Chem Int Ed, 2012, 51: 3846-3849.
2006, (240): 18-22. [26] Zhang Z W, Zhang G, He L, et al. Synthesis of niobium oxide
[10] Prashar A K, Mayadevi S, DeviR N. Effect of particle size on nanowires by polyethylenimine as template at varying pH values[J].
selective hydrogenation of cinnamaldehyde by Pt encapsulated in CrystEng Comm, 2014, 16: 3478-3482.

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