Catalysis by Supported Gold Nanoparticles

Comprehensive Nanoscience and Technology

Volumn 1-5, Issue , 2011, Pages 1-11

  Chen, X ^a   Zhu, H ^a  

^a QUEENSLAND UNIVERSITY OF TECHNOLOGY   (Australia)

Author keywords

Catalysis; Catalytic oxidation; Catalytic reduction; CO oxidation; Gold nanoparticles; Oxide supports; Particle size; Photocatalysts; Preparation method; Selective oxidation; Semiconductor; Surface plasmon resonance

Indexed keywords

EID: 85042739062     PISSN: None     EISSN: None     Source Type: Book    
DOI: 10.1016/B978-0-12-374396-1.00095-7     Document Type: Chapter

References (97)

1. Haruta M., Kobayashi T., Sano H., Yamada N. Novel gold catalysts for the oxidation of carbon monoxide at a temperature far below 0°C. Chemistry Letters 1987, 16:405.
2. 2 catalyst. Journal of the Japan Institute of Metals 1996, 60:693.
3. Haruta M., Yamada N., Kobayashi T., Iijima S. Gold catalysts prepared by coprecipitation for low-temperature oxidation of hydrogen and of carbon monoxide. Journal of Catalysis 1989, 115:301.
4. Kobayashi T., Haruta M., Tsubota S., Sano H. Thin films of supported gold catalysts for CO detection. Sensors and Actuators 1990, B1:222.
5. 2 catalyst prepared by deposition precipitation method. Chemistry Letters 1998, 315-316.
6. Tsubota S., Haruta M., Kobayashi T., Ueda A., Nakahara Y. Epoxidation of styrene by anhydrous t-butyl hydroperoxide over reusable gold supported on MgO and other alkaline earth oxides. Studies in Surface Science and Catalysis 1991, 63:695.
7. Haruta M. Catalysis of gold Nanoparticles deposited on metal oxides. Cattech 2002, 6:102.
8. Haruta M., Ueda A., Tsubota S., Sanchez R.M. Low-temperature catalytic combustion of methanol and its decomposed derivatives over supported gold catalysts. Catalysis Today 1996, 29:443.
9. Bailie J.E., Hutchings G.J. Promotion by sulfur of Ag/ZnO catalysts for the hydrogenation of but-2-enal. Catalysis Communications 2001, 2:291.
10. Zhong Z.Y., Lin J.Y., Teh S.P., Teo J., Dautzenberg F.M. A rapid and efficient method to deposit gold particles onto catalyst supports and its application for CO oxidation at low temperatures. Advanced Functional Materials 2007, 17:1402.
11. Lahr D.L., Ceyer S.T. Catalyzed CO oxidation at 70K on an extended Au/Ni surface alloy. Journal of the American Chemical Society 2006, 128:1800.
12. 4. Journal of Catalysis 1993, 144:175.
13. 2 catalysts. Catalysis Letters 1993, 17:245.
14. 2 for CO oxidation. Catalysis Letters 1997, 44:83.
15. Yuan Y., Kozlova A.P., Akasura K., Wan H., Tsai K., Iwasawa Y. Supported Au catalysts prepared from Au phosphine complexes and as-precipitated metal hydroxides: Characterization and low-temperature CO oxidation. Journal of Catalysis 1997, 170:191.
16. Yuan Y., Akasura K., Wan H., Tsai K., Iwasawa Y. Preparation of supported gold catalysts from gold complexes and their catalytic activities for CO oxidation. Catalysis Letters 1996, 42:15.
17. 2 complex. Journal of Catalysis 2002, 207:247.
18. Haller G.L., Resasco D.E. Metal-support interaction: Group VIII metals and reducible oxides. Advances in Catalysis 1989, 36:183.
19. Dominguez M.I., Romero-Sarria F., Centeno M.A., Odriozola J.A. Gold/hydroxyapatite catalysts synthesis, characterization and catalytic activity to CO oxidation. Applied Catalysis B 2009, 87:245.
20. Lopez N., Janssens T.V.W., Clausen B.S., et al. On the origin of the catalytic activity of gold nanoparticles for low-temperature CO oxidation. Journal of Catalysis 2004, 223:232.
21. Valden M., Lai X., Goodman D.W. Onset of catalytic activity of gold clusters on titania with the appearance of nonmetallic properties. Science 1998, 281:1647.
22. 22 catalysts. Catalysis Letters 1998, 56:7.
23. 2 catalysts for low-temperature CO Oxidation. Journal of Catalysis 1999, 186:458.
24. 2. Applied Catalysis A 2008, 347:62.
25. Grunwaldt J.D., Kiener C., Wogerbauer C., Baiker A. Preparation of supported gold catalysts for low-temperature CO oxidation via 'size-controlled' gold colloids. Journal of Catalysis 1999, 181:223.
26. Aguilar-Guerrero V., Gates B.C. Genesis of a highly active cerium oxide-supported gold catalyst for CO oxidation. Chemical Communications 2007, 3210-3212.
27. Wang L.C., Huang X.S., Liu Q., et al. Gold nanoparticles deposited on manganese(III) oxide as novel efficient catalyst for low temperature CO oxidation. Journal of Catalysis 2008, 259:66.
28. Schubert M.M., Hackenberg S., van Veen A.C., Muhler M., Plzak V., Behm R.J. CO oxidation over supported gold catalysts-'Inert' and 'active' support materials and their role for the oxygen supply during reaction. Journal of Catalysis 2001, 197:113.
29. Kozlov A., Kozlova A.P., Akasura K., et al. Supported gold catalysts prepared from a gold phosphine precursor and as-precipitated metal-hydroxide precursors: Effect of preparation conditions on the catalytic performance. Journal of Catalysis 2000, 196:56.
30. Bond G.C., Thompson D.T. Gold-catalysed oxidation of carbon monoxide. Gold Bulletin 2000, 33:41.
31. Hao Y.L., Gates B.C. Activation of dimethyl gold complexes on MgO for CO oxidation: Removal of methyl ligands and formation of catalytically active gold clusters. Journal of Catalysis 2009, 263:83.
32. 2 CO oxidation catalyst. Catalysis Communications 2009, 10:1196.
33. Chen M.S., Goodman D.W. The structure of catalytically active gold on titania. Science 2004, 306:252.
34. Choudhary T.V., Goodman D.W. Catalytically active gold: The role of cluster morphology. Applied Catalysis A 2005, 291:32.
35. 2-supported gold. Journal of Catalysis 2008, 260:351.
36. Herzing A.A., Kiely C.J., Carley A.F., Landon P., Hutchings G.J. Identification of active gold nanoclusters on iron oxide supports for CO oxidation. Science 2008, 321:1331.
37. 2. Applied Catalysis A 2005, 291:45.
38. Turner M., Golovko V.B., Vaughan O.P.H. Selective oxidation with dioxygen by gold nanoparticle catalysts derived from 55-atom clusters. Nature 2008, 454:981.
39. Hughes M.D., Xu Y.J., Jenkins P., et al. Tunable gold catalysts for selective hydrocarbon oxidation under mild conditions. Nature 2005, 437:1132.
40. 2. Catalysts and Catalysis 1995, 37:72.
41. Choudhary V.R., Dumbre D.K. Supported nano-gold catalysts for epoxidation of styrene and oxidation of benzyl alcohol to benzaldehyde. Topics in Catalysis 2009, 52:1677.
42. Conte M., Miyamura H., Kobayashi S., Chechik V. Spin trapping of Au-H intermediate in the alcohol oxidation by supported and unsupported gold catalysts. Journal of the American Chemical Society 2009, 131:7189.
43. Kim S., Bae S.W., Lee J.S., Park J. Recyclable gold nanoparticle catalyst for the aerobic alcohol oxidation and C-C bond forming reaction between primary alcohols and ketones under ambient conditions. Tetrahedron 2009, 65:1461.
44. Haider P., Kimmerie B., Krumeich F., Kleist W., Grunwaldt J.D., Baiker A. Gold-catalyzed aerobic oxidation of benzyl alcohol: Effect of gold particle size on activity and selectivity in different solvents. Catalysis Letters 2008, 125:169.
45. Li H.R., Guan B.T., Wang W.J., et al. Aerobic oxidation of alcohol in aqueous solution catalyzed by gold. Tetrahedron 2007, 63:8430.
46. Choudhary V.R., Jha R., Jana P. Solvent-free selective oxidation of benzyl alcohol by molecular oxygen over uranium oxide supported nano-gold catalyst for the production of chlorine-free benzaldehyde. Green Chemistry 2007, 9:267.
47. Porta F., Prati L., Rossi M., Scari G. New Au(0) sols as precursors for heterogeneous liquid-phase oxidation catalysts. Journal of Catalysis 2002, 211:464.
48. Bianchi C., Porta F., Prati L., Rossi M. Selective liquid phase oxidation using gold catalysts. Topics in Catalysis 2000, 13:231.
49. Bianchi C., Biella S., Gervasini A., Prati L., Rossi M. Gold on carbon: Influence of support properties on catalyst activity in liquid-phase oxidation. Catalysis Letters 2003, 85:91.
50. Biella S., Prati L., Rossi M. Gold catalyzed oxidation of aldehydes in liquid phase. Journal of Molecular Catalysis A 2003, 197:207.
51. Biella S., Prati L., Rossi M. Selectivity control in the oxidation of phenylethane-1, 2-diol with gold catalyst. Inorganica Chimica Acta 2003, 349:253.
52. Biella S., Prati L., Rossi M. Selective oxidation of D-glucose on gold catalyst. Journal of Catalysis 2002, 206:242.
53. Biella S., Castiglioni G.L., Fumagalli C., Prati L., Rossi M. Application of gold catalysts to selective liquid phase oxidation. Catalysis Today 2002, 72:43.
54. Prati L., Porta F. Oxidation of alcohols and sugars using Au/C catalysts: Part 1. Alcohols. Applied Catalysis A 2005, 291:199.
55. Porta F., Prati L. Selective oxidation of glycerol to sodium glycerate with gold-on-carbon catalyst: An insight into reaction selectivity. Journal of Catalysis 2004, 224:397.
56. Zhu J.J., Figueiredo J.L., Faria J.L. Au/activated-carbon catalysts for selective oxidation of alcohols with molecular oxygen under atmospheric pressure: Role of basicity. Catalysis Communications 2008, 9:2395.
57. Biella S., Rossi M. Gas phase oxidation of alcohols to aldehydes or ketones catalysed by supported gold. Chemical Communications 2003, 378-379.
58. Henkel H and Weber W (1914) Manufacture of Hydrogen Peroxide. US 1108752, August 1914.
59. Su F.Z., Chen M., Wang L.C., et al. Aerobic oxidation of alcohols catalyzed by gold nanoparticles supported on gallia polymorphs. Catalysis Communications 2008, 9:1027.
60. Carrettin S., McMorn P., Johnston P., Griffin K., Hutchings G.J. Selective oxidation of glycerol to glyceric acid using a gold catalyst in aqueous sodium hydroxide. Chemical Communications 2002, 696-697.
61. Carrettin S., McMorn P., Johnston P., et al. Oxidation of glycerol using supported gold catalysts. Topics in Catalysis 2004, 27:131.
62. Carrettin S., McMorn P., Johnston P., Griffin K., Kiely C.J., Hutchings G.J. Oxidation of glycerol using supported Pt, Pd and Au catalysts. Physical Chemistry Chemical Physics 2003, 5:1329.
63. Gaiassi A., Prati L. Gold catalysts for the direct oxidation of aminoalcohols to aminoacids. Catalysis Today 2009, 141:378.
64. 2 catalysts. Science 2006, 311:362.
65. Sobczak I., Kieronczyk N., Trejda M., Ziolek M. Gold, vanadium and niobium containing MCM-41 materials-Catalytic properties in methanol oxidation. Catalysis Today 2008, 139:188.
66. Abad A., Concepcion P., Corma A., Garcia H. A collaborative effect between gold and a support. Angewandte Chemie International Edition 2005, 44:4066.
67. 2 matrix as an efficient catalyst in the selective aerobic oxidation of aldehydes in the liquid phase. Chemical Communications 2005, 4042-4044.
68. Mori K., Hara T., Mizugaki T., Ebitani K., Kaneda K. Hydroxyapatite-supported palladium nanoclusters: A highly active heterogeneous catalyst for selective oxidation of alcohols by use of molecular oxygen. Journal of the American Chemical Society 2004, 126:10657.
69. Tsunoyama H., Sakurai H., Negishi Y., Tsukuda T. Size-specific catalytic activity of polymer-stabilized gold nanoclusters for aerobic alcohol oxidation in water. Journal of the American Chemical Society 2005, 127:9374.
70. Comotti M., Della Pina C., Matarrese R., Rossi M., Siani A. Oxidation of alcohols and sugars using Au/C catalysts: Part 2. Sugars. Applied Catalysis A 2005, 291:204.
71. Beltrame P., Comotti M., Della Pina C., Rossi M. Aerobic oxidation of glucose: II. Catalysis by colloidal gold. Applied Catalysis A 2006, 297:1.
72. Dimitratos N., Porta F., Prati L., Villa A. Synergetic effect of platinum or palladium on gold catalyst in the selective oxidation of D-sorbitol. Catalysis Letters 2005, 99:181.
73. Basheer C., Swaminathan S., Lee H.K., Valiyaveettil S. Aerobic oxidation of glucose with gold catalyst: Hydrogen peroxide as intermediate and reagent. Chemical Communications 2005, 409-410.
74. Ishida T., Kinoshita N., Okatsu H., Akita T., Takei T., Haruta M. Influence of the support and the size of gold clusters on catalytic activity for glucose oxidation. Angewandte Chemie International Edition 2008, 47:9265.
75. Jia M., Shen Y., Li C., Bao Z., Sheng S. Effect of supports on the gold catalyst activity for catalytic combustion of CO and HCHO. Catalysis Letters 2005, 3:235.
76. Guzman J., Gates B.C. A mononuclear gold complex catalyst supported on MgO: Spectroscopic characterization during ethylene hydrogenation catalysis. Journal of Catalysis 2004, 226:111.
77. Choudhary T.V., Sivadinarayana C., Dantye A., Kumar D., Goodman W.D. Acetylene hydrogenation on Au-based catalysts. Catalysis Letters 2003, 86:1.
78. Chou J., Franklin N.R., Baeck S.H., Jaramillo T.F., McFarland E.W. Gas-phase catalysis by Micelle derived Au nanoparticles on oxide supports. Catalysis Letters 2004, 95:107.
79. Lopez-Sanchez J.A., Lennon D. The use of titania- and iron oxide-supported gold catalysts for the hydrogenation of propyne. Applied Catalysis A 2005, 291:230.
80. Milone C., Ingoglia R., Pistone A., Neri G., Frusteri F., Galvagno S. Selective hydrogenation of α,β-unsaturated ketones to α,β-unsaturated alcohols on gold-supported catalysts. Journal of Catalysis 2004, 222:348.
81. Dowing R.S., Kunkeler P.J., Van Bekkum H. Catalytic syntheses of aromatic amines. Catalysis Today 1997, 37:121.
82. Corma A., Serna P. Chemoselective hydrogenation of nitro compounds with supported gold catalysts. Science 2006, 313:332.
83. Grirrane A., Corma A., Garcia H. Gold-catalyzed synthesis of aromatic azo compounds from anilines and nitroaromatics. Science 2008, 322:1661.
84. Corma A., Concepcion P., Serna P. A different reaction pathway for the reduction of aromatic nitro compounds on gold catalysts. Angewandte Chemie International Edition 2007, 46:7266.
85. Lews N.S. Light work with water. Nature 2001, 414:589.
86. 2 - New photochemical processes. Chemical Reviews 2006, 106:4428.
87. 2 thin films for photocatalytic degradation of phenol in sunlight. Journal of Molecular Catalysis A 2006, 243:68.
88. 2 thin films prepared by RF magnetron co-sputtering. Vacuum 2008, 82:827.
89. 2 catalysts. Acta Physico-Chimica Sinica 2007, 23:978.
90. 2 catalyst. International Journal of Hydrogen Energy 2008, 33:1243.
91. Huang X.H., El-Sayed I.H., Qian W., El-Sayed M.A. Cancer cell imaging and photothermal therapy in the near-infrared region by using gold nanorods. Journal of the American Chemical Society 2006, 128:2115.
92. Yuan H. Shape and SPR evolution of thorny gold nanoparticles promoted by silver ions. Chemistry of Materials 2007, 19:1592.
93. Liz-Marzan L.M. Tailoring surface plasmons through the morphology and assembly of metal nanoparticles. Langmuir 2006, 22:32.
94. Kelly K.L., Coronado E., Zhao L.L., Schatz G.C. The optical properties of metal nanoparticles: The influence of size, shape and dielectric environment. Journal of Physical Chemistry B 2003, 107:668.
95. Takami A., Kurita H., Koda S. Laser-induced size reduction of noble metal particles. Journal of Physical Chemistry B 1999, 103:1226.
96. Roper D.K., Ahn W., Hoepfner M. Microscale heat transfer transduced by surface plasmon resonant gold nanoparticles. Journal of Physical Chemistry C 2007, 111:3636.
97. Chen X., Zhu H.Y., Zhao J.C., Zheng Z.F., Gao X.P. Visible-light-driven oxidation of organic contaminants in air with gold nanoparticle catalysts on oxide supports. Angewandte Chemie International Edition 2008, 47:5353.