2000-2009

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  1. “γ-Al2O3-Supported Pt Catalysts with Extremely High Dispersions Resulting from Pt-W Interactions,” O. Alexeev, G. W. Graham, M. Shelef, and B. C. Gates, Journal of Catalysis, 190, 157 (2000)
  2. “Ligand-Free Osmium Clusters Supported on MgO:  A Density Functional Study,” J. F. Goellner, K. M. Neyman, M. Mayer, F. Nörtemann, B. C. Gates, and N. Rösch, Langmuir, 16, 2736 (2000).
  3. “EXAFS Characterization of Supported Metal-Complex and Metal-Cluster Catalysts Made from Organometallic Precursors,” O. Alexeev and B. C. Gates, Topics in Catalysis, 10, 273 (2000).
  4. “The Haag-Dessau Mechanism of Protolytic Cracking of Alkanes,” S. Kotrel, H. Knözinger, and B. C. Gates, Microporous and Mesoporous Materials, 35, 11 (2000).
  5. n-Pentane Isomerization Catalyzed by Fe- and Mn-containing Tungstated Zirconia,” M. Scheithauer, R. E. Jentoft, B. C. Gates, and H. Knözinger, Journal of Catalysis, 191, 271 (2000).
  6. “Changes in Morphology of γ-Al2O3-Supported Pt Clusters under Reaction Conditions: Evidence from In-Situ EXAFS Spectroscopy,” O. Alexeev and B. C. Gates, in Proceedings of the 12th International Congress on Catalysis, 130A, 371 (2000).
  7. “[Re2(CO)9]2- on Hydroxylated MgO:  Formation from [Re2(CO)10] and Evidence of Ion Pairing at the Surface,” C. J. Papile, H. Knözinger, and B. C.Gates, Langmuir, 16, 5661 (2000).
  8. “Temperature Programmed Desorption of Hydrogen from γ-Al2O3-Supported Platinum Catalysts with and without Tungsten, ,” F. Lai, D.W. Kim, O. S. Alexeev, G. W. Graham, M. Shelef, and B. C. Gates, Physical Chemistry Chemical Physics, 2, 1997 (2000).
  9. “Conversion of n-Pentane and of n-Butane Catalyzed by Platinum-containing WOx/TiO2,” S. Eibl, R. E. Jentoft, B. C. Gates, and H. Knözinger, Physical Chemistry, 2, 2565 (2000).
  10. “Structure and Bonding of a Site-Isolated Transition Metal Complex:  Rhodium Dicarbonyl in Highly Dealuminated Zeolite Y,” J. F. Goellner, B. C. Gates, G. N. Vayssilov, and N. Rösch, Journal of the American Chemical Society, 122, 8056 (2000).
  11. “Partially Decarbonylated Tetrairidium Clusters on MgO: Structural Characterization and Catalysis of Toluene Hydrogenation” O. S. Alexeev, D.W. Kim, and B. C. Gates, Journal of Molecular Catalysis A Chemical, 162, 67 (2000).
  12. “Supported Metal Cluster Catalysts,” B. C. Gates, Journal of Molecular Catalysis A Chemical, 163, 55 (2000).
  13. “Hexairidium Carbonyl Clusters in the Micropores of Faujasite Zeolites:  Evidence from Transmission Electron Microscopy,” B. Tesche, S. Kawi, and B. C. Gates, Catalysis Letters, 70, 57 (2000).
  14. “Models of Metal Catalysts:  Beyond Single Crystals ,” B. C. Gates, Topics in Catalysis, 14, 173 (2001).
  15. “Redox Properties of Tungstated Zirconia Catalysts:  Relevance to the Activation of n-Alkanes,” S. Kuba, P. Concepcion, R. K. Grasselli, B. C. Gates, M. Che, and H. Knözinger,Physical Chemistry Chemical Physics, 3, 146 (2001).
  16. “Structure of WOx/TiO2 Catalysts Prepared from Hydrous Titanium Oxide Hydroxide:  Influence of Preparation Parameters,” S. Eibl, B. C. Gates, and H. Knözinger, Langmuir, 17, 107 (2001).
  17. “Catalytic Hydroprocessing of Aromatic Compounds:  Effects of Metal Sulfide Deposits Formed in Commercial Hydroprocessing,” M. Yumoto, S. G. Kukes, M. T. Klein, and B. C. Gates, Industrial and Engineering Chemistry Research, 40, 131 (2001).
  18. “An active and selective alkane isomerization catalyst: iron- and platinum-promoted tungstated zirconia,” S. Kuba, B. C. Gates, R. K. Grasselli, and H. Knözinger, Chemical Communications, 2001, 321.
  19. “Reactivity of Site-Isolated Metal Clusters:  Propylidyne on γ-Al2O3-Supported Ir4,” A. M. Argo, J. F. Goellner, B. L. Phillips, G. A. Panjabi, and B. C. Gates, Journal of the American Chemical Society, 123, 2275 (2001).
  20. “H-D Exchange between CD4 and Solid Acids:  AlCl3/Sulfonic Acid Resin, Promoted and Unpromoted Sulfated Zirconia, and Zeolite HZSM-5,” R. Jentoft and B. C. Gates, Catalysis Letters, 72, 129 (2001).
  21. “Synthesis and Characterization of Site-Isolated Hexarhodium Clusters on Titania Powder,” J. F. Goellner and B. C. Gates, Journal of Physical Chemistry B, 105, 3269 (2001).
  22. “A Flow-through X-Ray Absorption Spectroscopy Cell for Characterization of Powder Catalysts in the Working State,” J. F. Odzak, A. M. Argo, F. S. Lai, B. C. Gates, K. Pandya, and L. Feraria, Review of Scientific Instruments, 72, 3943 (2001).
  23. “Catalysis,” B. C. Gates, in Encyclopedia of Chemical Physics and Physical Chemistry, J. Moore and N. Spencer, Eds., Institute of Physics Press, Vol. III, Applications, pp. 2395–2413 (2001).
  24. “Nanoclusters of Iridium Oxide and of Rhodium Oxide Supported on MgO,” F. S. Lai and B. C. Gates, Nano Letters, 1, 583 (2001).
  25. “Supported Nanostructured Catalysts:  Metal Complexes and Metal Clusters,” B. C. Gates, Advances in Chemical Engineering, 27, 49 (2001).
  26. “Gold Nanoclusters Supported on MgO:  Synthesis, Characterization, and Evidence of Au6,” J. Guzman and B. C. Gates, Nano Letters, 1, 689 (2001).
  27. “Observation of Ligand Effects during Alkene Hydrogenation on Supported Metal Clusters,” A. M. Argo, J. F. Odzak, F. S. Lai, and B. C. Gates, Nature, 415, 623 (2002).
  28. “Synthesis and Structure of Tetrairidium Clusters on TiO2 Powder: Characterization by Infrared and Extended X-ray Absorption Fine Structure Spectroscopies,” J. F. Goellner, J. Guzman, and B. C. Gates, Journal of Physical Chemistry B, 106, 1229 (2002).
  29. “Osmium Carbonyls in Zeolite NaX:  Characterization by 129Xe NMR and Extended X-Ray Absorption Fine Structure Spectroscopies,” B. Enderle, A. Labouriau, K. C. Ott, and B. C. Gates, Journal of Physical Chemistry B, 106, 2109 (2002).
  30. “Imaging of Nearly Uniform Os5C Clusters Dispersed on MgO Powder,” L. F. Allard, G. A. Panjabi, S. N. Salvi, and B. C. Gates, Nano Letters, 2, 381 (2002).
  31. “Propene Hydrogenation Catalyzed by g-Al2O3-Supported Ir4 Clusters:  Inhibition by Dehydrogenated Propene Derivatives on Ir4,” A. M. Argo and B. C. Gates, Langmuir, 18, 2152 (2002).
  32. “γ-Al2O3-Supported PtRu Clusters Prepared from [Pt2Ru4(CO)18]:  Characterization by Infrared and Extended X-Ray Absorption Fine Structure Spectroscopies,” O. S. Alexeev, G. W. Graham, M. Shelef, R. D. Adams, and B. C. Gates, Journal of Physical Chemistry B, 106, 4697 (2002).
  33. “Simultaneous Presence of Cationic and Reduced Gold in Functioning MgO-Supported CO Oxidation Catalysts:  Evidence from X-Ray Absorption Spectroscopy,” J. Guzman and B. C. Gates, Journal of Physical Chemistry B, 106, 7659 (2002).
  34. “Catalysis,” a chapter for the Kirk-Othmer Encyclopedia of Chemical Technology, B. C. Gates, Wiley, New York, 2002.
  35. “Nanoclusters in Nanocages:  Platinum Clusters and Platinum Complexes in Zeolite LTL Probed by 129Xe NMR Spectroscopy,” B. A. Enderle, A. Labouriau, K. C. Ott, and B. C. Gates, Nano Letters, 2, 1269 (2002).
  36. “Catalysis by Solid Acids,” B. C. Gates, in “Encyclopedia of Catalysis,” Wiley-Interscience, Weinheim, Volume 2, pp. 104– 142 (2003).
  37. “Structure and Reactivity of a Mononuclear Gold Complex Catalyst Supported on Magnesium Oxide,” J. Guzman and B. C. Gates, Angewandte Chemie International Edition, 42, 690 (2003).
  38. “Oxidation States of Gold in MgO-Supported Complexes and Clusters:  Characterization by X-ray Absorption Spectroscopy and Temperature Programmed Oxidation and Reduction,” J. L. Guzman and B. C. Gates, Journal of Physical Chemistry B, 107, 2242 (2003).
  39. “Oxidation of Supported Rhodium Clusters by Support Hydroxyl Groups,” G. N. Vayssilov, B. C. Gates, and N. Rösch, Angewandte Chemie International Edition, 42, 1391 (2003).
  40. “Supported Bimetallic Cluster Catalysts,” O. Alexeev and B. C. Gates, Industrial and Engineering Chemistry Research, 42, 1571 (2003).
  41. “Structure and Properties of Tungstated Zirconia Catalysts for Alkane Conversion,” S. Kuba, P. Lukinskas, R. K. Grasselli, B. C. Gates, and H. Knözinger, Journal of Catalysis, 219, 376 (2003).
  42. “Reaction of Au(CH3)2(acac) on γ-Al2O3:  Characterization of the Surface Organic, Organometallic, Metal Oxide, and Metallic Species,” J. Guzman and B. C. Gates, Langmuir, 19, 3897 (2003).
  43. “Alkene Hydrogenation Catalyzed by Rhenium Carbonyls Bonded to Highly Dealuminated Y Zeolite:  Spectroscopic Characterization of the Working Catalyst, ” B. Enderle and B. C. Gates, Journal of Molecular Catalysis A Chemical, 204, 473 (2003).
  44. “MgO-Supported Rh6 and Ir6:  Structural Characterization during Catalysis of Ethene Hydrogenation,” A. M. Argo and B. C. Gates, Journal of Physical Chemistry B, 107, 5519 (2003).
  45. “Role of Cluster Size in Catalysis:  Spectroscopic Investigation of γ-Al2O3-Supported Ir4 and Ir6 During Ethene Hydrogenation,” A. M. Argo, J. F. Odzak, and B. C. Gates, Journal of the American Chemical Society, 125, 7107 (2003).
  46. “Reaction Pathways in n-Pentane Conversion Catalyzed by Tungstated Zirconia:  Effects of Platinum in the Catalyst and Hydrogen in the Feed,” S. Kuba, P. Lukinskas, R. Ahmad, F. C. Jentoft, R. K. Grasselli, B. C. Gates, and H. Knözinger, Journal of Catalysis, 216, 353 (2003).
  47. “Carbonylation and Decarbonylation of γ-Al2O3-Supported Hexarhodium Clusters:  Characterization by Infrared, 13C NMR, and Extended X-ray Absorption Fine Structure Spectroscopies,” O. Alexeev, G. Panjabi, B. L. Phillips, and B. C. Gates, Langmuir, 19, 9494 (2003).
  48. “Supported molecular catalysts:  metal complexes and clusters on oxides and zeolites,” J. Guzman and B. C. Gates, Dalton Transactions, 2003, 3303.
  49. “Synthesis and Structural Characterization of Iridium Clusters Formed Inside and Outside the Pores of Zeolite NaY,” F. Li and B. C. Gates, Journal of Physical Chemistry B, 107, 11589 (2003).
  50. “A rhenium carbonyl bonded to highly dealuminated zeolite Y:  structure determination by infrared and X-ray absorption spectroscopies,” B. Enderle and B. C. Gates, Physical Chemistry Chemical Physics, 6, 2484 (2004).
  51. “Catalysis by Supported Gold:  Correlation Between Catalytic Activity for CO Oxidation and Oxidation States of Gold,” J. Guzman and B. C. Gates, Journal of the American Chemical Society, 126, 2672 (2004).
  52. “Formation of Gold Clusters on TiO2 from Adsorbed Au(CH3)2(C5H7O2):  Characterization by X-Ray Absorption Spectroscopy,” J. Guzman, S. Kuba, J. C. Fierro-Gonzalez, and B. C. Gates, Catalysis Letters, 95, 77 (2004).
  53. “A Mononuclear Gold Complex Supported on MgO:  Spectroscopic Characterization during Ethylene Hydrogenation Catalysis,” J. Guzman and B. C. Gates, Journal of Catalysis, 226, 111 (2004).
  54. “Hexarhodium Clusters on Lanthana:  Synthesis, Characterization, and Catalysis of Ethene Hydrogenation,” V. Bhirud, J. F. Goellner, A. M. Argo, and B. C. Gates, Journal of Physical Chemistry B, 108, 9752 (2004).
  55. “Metal Carbonyl Cluster Synthesis in Nanocages:  Spectroscopic Evidence of Intermediates in the Formation of Ir4(CO)12 in Zeolite NaY,” F. Li and B. C. Gates, Journal of Physical Chemistry B, 108, 11259 (2004).
  56. “Nearly Uniform MgO-Supported Pentaosmium Cluster Catalysts, V. A. Bhirud, G. Panjabi, S. N. Salvi, B. L. Phillips, and B. C. Gates, Langmuir, 20, 6173 (2004). 
  57. “Activation of Au/γ-Al2O3 Catalysts for CO Oxidation:  Characterization by X-ray Absorption Near Edge Structure and Temperature Programmed   Reduction,” C. K. Costello, J. Guzman, J. H. Yang, Y. M. Wang, M. C. Kung, B. C. Gates, and H. H. Kung, Journal of Physical Chemistry B, 108, 12529 (2004).
  58. “Mononuclear AuIII and AuI Complexes Bonded to Zeolite NaY:  Catalysts for CO Oxidation at 298 K,” J. C. Fierro-Gonzalez and B. C. Gates, Journal of Physical Chemistry B, 108, 16999 (2004).
  59. “Effects of Adsorbates on Supported Platinum and Iridium Clusters:  Characterization in Reactive Atmospheres and during Alkene Hydrogenation Catalysis by X-ray Absorption Spectroscopy,” O. S. Alexeev, F. Li, M. D. Amiridis, and B. C. Gates, Journal of Physical Chemistry B, 109, 2338 (2005).
  60. “Synthesis and Reactivity of Dimethyl Gold Complexes Supported on MgO:  Characterization by Infrared and X-Ray Absorption Spectroscopies,” J. Guzman, B. G. Anderson, C. P. Vinod, K. Ramesh, J. W. Niemantsverdriet, and B. C. Gates, Langmuir, 21, 3675 (2005).
  61. “Genesis of Gold Clusters from Mononuclear Gold Complexes on TiO2:  Reduction and Aggregation of Gold Characterized by Time-Resolved X-Ray Absorption Spectroscopy,” J. C. Fierro-Gonzalez and B. C. Gates, Journal of Physical Chemistry B, 109, 7275 (2005).
  62. “Zeolite NaY-supported gold complexes prepared from Au(CH3)2(C5H7O2):  reactivity with carbon monoxide,” J. C. Fierro-Gonzalez, B. G. Anderson, K. Ramesh, C. P. Vinod, J. W. Niemantsverdriet, and B. C. Gates, Catalysis Letters, 101, 265 (2005).
  63. “Influence of CO and CO2 Treatments on the Structure and Activity of Au/γ-Al2O3 Catalysts,” J. Guzman, J. C. Fierro-Gonzalez, V. Aguilar-Guerrero, Y. Hao, and B. C. Gates, Zeitschrift für Physikalische Chemie, 219, 921 (2005).
  64. “Alumina-supported Tri-rhenium Clusters Revealed by Aberration-corrected Electron Microscopy,” V. A. Bhirud, M. J. Moses, D. A. Blom, L. F. Allard, T. Aoki, S. Mishina, C. K. Narula, and B. C. Gates, Microscopic Microanalysis, 11 (Supplement 2) 1574, 2005.
  65. “Intact and Fragmented Triosmium Clusters on MgO:  Characterization by X-ray Absorption Spectroscopy and High-Resolution Transmission Electron Microscopy,” V. A. Bhirud, H. Iddir, N. D. Browning, and B. C. Gates, Journal of Physical Chemistry B, 109, 12738 (2005).
  66. “Structural Changes of the Gold-Support Interface during CO Oxidation Catalyzed by Mononuclear Gold Complexes Bonded to Zeolite NaY:  Evidence from Time-Resolved X-Ray Absorption Spectroscopy,” J. C. Fierro-Gonzalez and B. C. Gates, Langmuir, 21, 5693 (2005).
  67. “Oxide- and Zeolite-supported ‘Molecular’ Metal Clusters:  Synthesis, Structure, Bonding, and Catalytic Properties,” B. C. Gates, Topics in Organometallic Chemistry, Volume 16, C. Coperet and B. Chaudret, editors, 2005, pp. 211–231.
  68. “A Highly Active Catalyst for CO Oxidation at 298 K: Mononuclear AuIII Complexes Anchored to La2O3 Nanoparticles,” J. C. Fierro-Gonzalez, V. A. Bhirud, and B. C. Gates, Chemical Communications, 2005, 5275.
  69. “CO Oxidation Catalyzed by Supported Gold: Cooperation between Gold and Nanocrystalline Rare-Earth Supports Forms Reactive Surface Superoxide and Peroxide Species,” J. Guzman, S. Carrettin, J. C. Fierro-Gonzalez, Y. Hao, B. C. Gates, and A. Corma, Angewandte Chemie International Edition, 44, 4778 (2005).
  70. “A Site-Isolated Rhodium Diethylene Complex Supported on Highly Dealuminated Y Zeolite:  Synthesis and Characterization,” A. J. Liang, V. A. Bhirud, J. O. Ehresmann, P. W. Kletnieks, J. F. Haw, and B. C. Gates, Journal of Physical Chemistry B, 109, 24236 (2005).
  71. “Evidence from NMR and EXAFS Studies of a Dynamically Uniform Mononuclear Single-Site Zeolite-Supported Rhodium Catalyst,” J. O. Ehresmann, P. W. Kletnieks, A. Liang, V. A. Bhirud, O. P. Bagatchenko, E. J. Lee, M. Klaric, B. C. Gates, and J. F. Haw, Angewandte Chemie International Edition, 45, 574 (2006).
  72. “Rhodium Complex with Ethylene Ligands Supported on Highly Dehydroxylated MgO:  Synthesis, Characterization, and Reactivity,” V. A. Bhirud, J. O. Ehresmann, P. W. Kletnieks, J. F. Haw, and B. C. Gates, Langmuir, 22, 490 (2006).  
  73. “Catalysis by Oxide-Supported Clusters of Iridium and Rhodium: Hydrogenation of Ethene, Propene, and Toluene,” A. M. Argo, J. F. Odzak, J. F. Goellner, F. S. Lai, F. S. Xiao, and B. C. Gates, Journal of Physical Chemistry B, 110, 1775 (2006).
  74. “Tricarbonyls of Low-Coordinated Au(0) Atoms on Zeolite-Supported Gold Nanoparticles: Evidence from Infrared and X-Ray Absorption Spectroscopies,” B. G. Anderson, J. C. Fierro-Gonzalez, K. Ramesh, C. P. Vinod, J. W. Niemantsverdriet, and B. C. Gates, Langmuir, 22, 4310 (2006).
  75. “Formation of Non-classical Gold Carbonyls in Zeolite NaY:  Characterization by Infrared Spectroscopy,” M. Mihaylov, J. C. Fierro-Gonzalez, H. Knözinger, B. C. Gates, and K. I. Hadjiivanov, Journal of Physical Chemistry B, 110, 7695 (2006).
  76. “Pt3Ru6 Clusters Supported on γ-Al2O3:  Synthesis from Pt3Ru6(CO)213-H)(μ-H)3, Structural Characterization, and Catalysis of Ethylene Hydrogenation and n-Butane Hydrogenolysis,” S. Chotisuwan, J. Wittayakun, and B. C. Gates, Journal of Physical Chemistry B, 110, 12459 (2006).
  77. “Oxide- and Zeolite-Supported Molecular Metal Complexes and Clusters:  Physical Methods and Determination of Structure, Bonding, and Metal Oxidation State,” J. C. Fierro-Gonzalez, S. Kuba, Y. Hao, and B. C. Journal of Physical Chemistry B, 110, 13326 (2006).
  78. “Role of Gold Cations in the Oxidation of Carbon Monoxide Catalyzed by Iron Oxide-Supported Gold,” G. J. Hutchings, M. S. Hall, A. F. Carley, P. Landon, B. E. Solsona, C. J. Kiely, A. Herzing, M. Makkee, J. A. Moulijn, A. Overweg, J. C. Fierro-Gonzalez, J. Guzman, and B. C. Gates, Journal of Catalysis, 242, 71 (2006).
  79. “Surface-Mediated Synthesis and Spectroscopic Characterization of Tantalum Clusters on Silica,” S. Nemana and B. C. Gates, Langmuir, 22, 8214 (2006).
  80. “Redox Chemistry of Tantalum Clusters on Silica Characterized by X-Ray Absorption Spectroscopy,” S. Nemana and B. C. Gates, Journal of Physical Chemistry B, 110, 17546 (2006).
  81. “Silica-Supported Tantalum Clusters:  Catalyst for Alkane Conversion,” S. Nemana and B. C. Gates, Chemical Communications, 2006, 3996.
  82. “Zeolite-Encaged Iridium Clusters with Hydride Ligands:  Characterization by Extended X-ray Absorption Fine Structure, NMR, and Inelastic Neutron Scattering Vibrational Spectroscopies,” F. Li, P. Yu, M. Hartl, L. L. Daemen, J. Eckert, and B. C. Gates, Zeitschrift für Physikalische Chemie, 220, 1553 (2006).
  83. “Synthesis of Oxide- and Zeolite-supported Catalysts from Organometallic Precursors,” B. C. Gates, in “Catalyst Preparation Science and Engineering,” edited by J. Regalbuto, CRC Press, pp. 237–249, 2007.
  84. “Size-Dependent Catalytic Activity of Zeolite-Supported Iridium Clusters,” F. Li and B. C. Gates, Journal of Physical Chemistry C, 111, 262 (2007).
  85. “Silica-Supported Tantalum Clusters:  Catalysts for Conversion of Methane with n-Butane to give Ethane, Propane, and Pentanes,” S. Nemana and B. C. Gates, Catalysis Letters, 113,73 (2007).
  86. “Redox Behavior of Gold species in Zeolite NaY:  Characterization by Infrared Spectroscopy of Adsorbed CO,” M. Mihaylov, B. C. Gates, J. C. Fierro-Gonzalez, K. Hadjiivanov, and H. Knözinger, Journal of Physical Chemistry C, 111, 2548 (2007).
  87. “Evidence of Active Species in CO Oxidation Catalyzed by Supported Gold,” J. C. Fierro-Gonzalez and B. C. Gates, Catalysis Today, 122, 201 (2007).
  88. “Synthesis and Crystal Structure of Ir(C2H4)2(C5H7O2),” V. A. Bhirud, A. Uzun, P. W. Kletnieks, R. Craciun, J. F. Haw, D. A. Dixon, M. M. Olmstead, and B. C. Gates, Journal of Organometallic Chemistry, 692, 2107 (2007).
  89. “Role of Cationic Gold in Supported CO Oxidation Catalysts” J. C. Fierro-Gonzalez, J. Guzman, and B. C. Gates, Topics in Catalysis, 44, 103 (2007)
  90. “MgO-supported clusters catalysts with Pt-Ru interactions prepared from Pt3Ru6(CO)21(μ3-H)(μ-H)3,” S. Chotisuwan, J. Wittayakun, R. Lobo-Lapidus, and B. C. Gates, Catalysis Letters, 115, 99 (2007).
  91. “Gold Nanoclusters Entrapped in the α-Cages of Y Zeolite:  Structural Characterization by X-ray Absorption Spectroscopy,” J. C. Fierro-Gonzalez, Y. Hao, and B. C. Gates, Journal of Physical Chemistry C, 111, 6645 (2007). 
  92. “Characterization of the Oxidation States of Supported Gold Species by IR Spectroscopy of CO Probe Molecules,” M. Mihaylov, H. Knözinger, K. Hadjiivanov, and B. C. Gates, Chemie Ingenieur Technik, 79, 795 (2007).
  93. “Increasing the Number of Oxygen Vacancies on TiO2 by doping with Iron Increases the Activity of Supported Gold for CO Oxidation,” S. Carrettin, Y. Hao, V. Aguilar-Guerrero, B. C. Gates, S. Trasobares, J. J. Calvino, and A. Corma, Chemistry—A European Journal, 13, 7771 (2007).
  94. “Chemistry of Tantalum Clusters in Solution and On SiO2 Supports:  Analogies and Contrasts,” S. Nemana and B. C. Gates, Langmuir, 23, 8845 (2007).
  95. “Genesis of a highly active Cerium Oxide-Supported Gold Catalyst for CO Oxidation,” V. Aguilar-Guerrero and B. C. Gates, Chemical Communications, 2007, 3210.  
  96. “Molecular Heterogeneous Catalysis:  A Single-site Zeolite-Supported Rhodium Complex for Acetylene Cyclotrimerization,” P. W. Kletnieks, A. J. Liang, R. Craciun, J. O. Ehresmann, D. M. Marcus, V. A. Bhirud, M. M. Klaric, M. J. Hayman, D. R. Guenther, O. P. Bagatchenko, D. A. Dixon, B. C. Gates, and J. F. Haw, Chemistry—A European Journal, 13, 7294 (2007).
  97. “A Site-Isolated Iridium Diethylene Complex Supported on Highly Dealuminated Y Zeolite:  Synthesis and Characterization,” A. Uzun, V. A. Bhirud, P. W. Kletnieks, J. F. Haw, and B. C. Gates, Journal of Physical Chemistry C,  111, 15064 (2007).
  98. “Oxidation by CO2 of Au0 and Au Species on La2O3-supported gold clusters,” M. Mihaylov, E. Ivanova, Y. Hao, K. Hadjiivanov, B. C. Gates, and H. Knözinger, Chem Comm, 175 (2008).
  99. “Determination of Nanocluster Sizes from Dark-Field Scanning Transmission Elecctron Microscopy Images,” N. L. Okamoto, B. W. Reed, S. Mehraeen, A. Kulkarni, D. G. Morgan, B. C. Gates, and N. D. Browning, Journal of Physical Chemistry C, 112, 1759 (2008).
  100. “Probing Defect Sites on TiO2 with H3Re3(CO)12:  Spectroscopic Characterization of the Surface Species,” K. Suriye, R. J. Lobo-Lapidus, G. J. Yeagle, P. Praserthdam, R. D. Britt, and B. C. Gates, Chemistry a European Journal, 14, 1402 (2008).
  101. “Catalysis by Ion-Exchange Resins,” B. C. Gates, in Handbook of Heterogeneous Catalysis, 2nd Edition, G. Ertl, H. Knözinger, F. Schüth, and J. Weitkamp, Eds., Verlag Chemie, Weinheim, Vol. 1, pp.278-285, 2008.
  102. “Supported Metal Cluster Catalysts,” B. C. Gates, in Handbook of Heterogeneous Catalysis, 2nd Edition, G. Ertl, H. Knözinger, F. Schüth, and J. Weitkamp, Eds., Verlag Chemie, Weinheim, Vol. 3, pp.1277-1285,  2008
  103. “Hydrocarbon Reaction Mechanisms,” D. S. Santilli and B. C. Gates, in Handbook of Heterogeneous Catalysis, 2nd Edition, G. Ertl, H. Knözinger, F. Schüth, and J. Weitkamp, Eds., Verlag Chemie, Weinheim, Vol. 3, pp. 1624-1637, 2008.
  104. “Alumina-Supported Trirhenium Clusters:  Stable High-Temperature Catalysts for Methylcyclohexane Conversion,” R. J. Lobo-Lapidus, M. J. McCall, M. Lanuza, S. Tonnesen, S. R. Bare, and B. C. Gates, Journal of Physical Chemistry C, 112, 3383 (2008). 
  105. “Catalysts for Emerging Energy Applications, B. C. Gates, G. W. Huber, C. L. Marshall, P. N. Ross, J. Siirola, and Y. Wang, Materials Research Society Proceedings, MRS Bulletin, 33, 429 (2008).
  106. “Reactivity of Binuclear Tantalum Clusters on Silica: Characterization by Transient Time-resolved Spectroscopy,” S. Nemana, J. Sun, and B. C. Gates, Journal of Physical Chemistry C, 112, 7477 (2008).
  107. “Catalysis by Gold Dispersed on Supports:  The Importance of Cationic Gold,” J. C. Fierro-Gonzalez and B. C. Gates, Chemical Society Reviews, 37, 2127 (2008).
  108. “Molecular Chemistry in a Zeolite: Genesis of a Zeolite Y-supported Ruthenium Complex Catalyst,” I. Ogino and B. C. Gates, Journal of the American Chemical Society, 130, 13338 (2008).
  109. “Catalysis:  Individual Nanoparticles in Action,” B. C. Gates, Nature Nanotechnology, 3, 583 (2008).
  110. “Real-Time Characterization of Formation and Breakup of Iridium Clusters in Highly Dealuminated Zeolite Y,” A. Uzun and B. C. Gates, Angewandte Chemie, International Edition, 47, 9245 (2008).
  111. “Time-Resolved Structural Characterization of Formation and Break-up of Rhodium Clusters supported in Highly Dealuminated Y Zeolite,” A. J. Liang and B. C. Gates, Journal of Physical Chemistry C, 112, 18,039 (2008).
  112. “Gold Supported on La2O3: Structure and Reactivity with CO2 and Implications for CO Oxidation Catalysis,” M. Mihaylov, E. Ivanova, Y. Hao, K. Hadjiivanov, H. Knözinger, and B. C. Gates, Journal of Physical Chemistry C, 112, 18,973 (2008).
  113. “Kinetics of CO Oxidation Catalyzed by Highly Dispersed CeO2-Supported Gold,” V. Aguilar-Guerrero and B. C. Gates, Journal of Catalysis, 260, 351 (2008).
  114. “CO Oxidation Catalyzed by Gold Supported on MgO:  Spectroscopic Identification of Carbonate-like Species Bonded to Gold during Catalyst Deactivation,” Y. Hao, M. Mihaylov, E. Ivanova, K. Hadjiivanov, H. Knözinger, and B. C. Gates, Journal of Catalysis, 261, 137 (2009).
  115. “Genesis of a Cerium Oxide-Supported Gold Catalyst for CO Oxidation:  Transformation of Mononuclear Gold Complexes into Clusters as Characterized by X-Ray Absorption Spectroscopy,” V. Aguilar-Guerrero, R. J. Lobo-Lapidus, and B. C. Gates, Journal of Physical Chemistry C, 113, 3259 (2009).
  116. “Activation of Dimethyl Gold Complexes on MgO for CO Oxidation:  Removal of Methyl Ligands and Formation of Catalytically Active Gold Clusters,” Y. Hao and B. C. Gates, Journal of Catalysis, 263, 83 (2009).
  117. “Kinetics of CO Oxidation Catalyzed by Supported Gold:  A Tabular Summary of the Literature,” V. Aguilar-Guerrero and B. C. Gates, Catalysis Letters, 130, 108 (2009).
  118. “Zeolite-Supported Organorhodium Fragments:  Essentially Molecular Surface Chemistry Elucidated with Spectroscopy and Theory,” A. J. Liang, R. Craciun, M. Chen, T. G. Kelly, P. W. Kletnieks, J. F. Haw, D. A. Dixon, and B. C. Gates, Journal of the American Chemical Society, 131, 8460 (2009).
  119. “Site-Isolated Iridium Complexes on MgO Powder:  Individual Ir Atoms Imaged by Scanning Transmission Electron Microscopy,” A. Uzun, V. Ortalan, N. D. Browning, and B. C. Gates,ChemComm, 31, 4567(2009).
  120. “Role of a Support in Catalysis:  Activation of a Mononuclear Ruthenium Diethene Complex for Ethene Dimerization by Chemisorption on Dealuminated Zeolite Y,” I. Ogino and B. C. Gates, Chemistry, a European Journal, 15, 6767 (2009).
  121. “Tantalum Clusters Supported on Silica-Alumina:  Influence of Support Composition and Chemistry on Cluster Structure,” J. Sun, M. Chi, R. J. Lobo-Lapidus, S. Mehraeen, N. D. Browning, and B. C. Gates, Langmuir, 25, 10754 (2009).
  122. “Nearly Uniform Decaosmium Clusters Supported on MgO:  Characterization by X-ray Absorption Spectroscopy and Scanning Transmission Electron Microscopy,” A. Kulkarni, S. Mehraeen, B. W. Reed, N. L. Okamoto, N. D. Browning, and B. C. Gates, Journal of Physical Chemistry C, 113, 13377 (2009).
  123. “Imaging Gold Atoms in Site-isolated MgO-Supported Mononuclear Gold Complexes,” A. Uzun, V. Ortalan, Y. Hao, N. D. Browning, and B. C. Gates, Journal of Physical Chemistry C, 113, 16847 (2009).
  124. “Rhenium Complexes and Clusters Supported on γ-Al2O3:  Effects of Rhenium Oxidation State and Nuclearity on Catalytic Activity for Conversion of n-Butane,” R. J. Lobo-Lapidus and B. C. Gates, Journal of Catalysis, 268, 89 (2009).
  125. “Validation and Generalization of a Method for Precise Size Measurements of Metal Nanoclusters,” B. W. Reed, D. G. Morgan, N. L. Okamoto, A. Kulkarni, B. C. Gates, and N. D. Browning, Ultramicroscopy, 110, 48 (2009).
  126. “Dynamic Structural Changes in a Zeolite-Supported Iridium Catalyst for Ethene Hydrogenation,” A. Uzun and B. C. Gates, Journal of the American Chemical Society, 131, 15887 (2009).
  127. “Spectroscopic Elucidation of First Steps of Supported Bimetallic Cluster Formation,” A. Kulkarni and B. C. Gates, Angewandte Chemie, International Edition, 48, 9697 (2009).
  128. “Nanoclusters of Gold on a High-Area Support:  Almost Uniform Nanoclusters Imaged by Scanning Transmission Electron Microscopy,” A. Uzun, V. Ortalan, Y. Hao, N. D. Browning, and B. C. Gates, ACS Nano, 3, 3691 (2009).
  129. “Transient Spectroscopic Characterization of the Genesis of a Ruthenium Complex Catalyst Supported on Zeolite Y,” I. Ogino and B. C. Gates, Journal of Physical Chemistry C, 113, 20036 (2009).

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