2010-2013

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  1. “A Site-Isolated Mononuclear Iridium Complex Catalyst Supported on MgO:  Characterization by Spectroscopy and Aberration-Corrected Scanning Transmission Electron Microscopy,” A. Uzun, V. Ortalan, N. D. Browning, and B. C. Gates, Journal of Catalysis, 269, 318 (2010).
  2. “Adsorption and Reaction of Rh(CO)2(acac) on Al2O3/Ni3Al(111),” Y. Lei, A. Uhl, J. Liu, C. Becker, K. Wandelt, B. C. Gates, R. Meyer, and M. Trenary, PhysChemChemPhys, 12, 1264, (2010).
  3. “Essentially Molecular Metal Complexes Anchored to Zeolite Beta:  Synthesis and Characterization of Rhodium Complexes and Ruthenium Complexes prepared from Rh(acac)(η2-C2H4)2 and cis-Ru(acac)2(η2-C2H4)2,” I. Ogino and B. C. Gates, Journal of Physical Chemistry C, 114, 2685 (2010).
  4. “Reactions of Highly Uniform Zeolite H-ß-Supported Rhodium Complexes: Transient Characterization by Infrared and X-ray Absorption Spectroscopies,” I. Ogino and B. C. Gates, Journal of Physical Chemistry C, 114, 8405 (2010).
  5. A Zeolite-Supported Molecular Ruthenium Complex with η6-C6H6 Ligands:  Chemistry Elucidated with Spectroscopy and Density Functional Theory,”  I. Ogino, M. Chen, J. Dyer, P. W. Kletnieks, J. F. Haw, D. A. Dixon, and B. C. Gates, Chemistry—a European Journal, 16, 7427 (2010).
  6. “Direct Imaging of Single Metal Atoms and Clusters in the Pores of Dealuminated HY Zeolite,” V. Ortalan, A. Uzun, B. C. Gates, and N. D. Browning, Nature Nanotechnology, 5, 506 (2010).
  7. “Metal Clusters on Supports: Synthesis, Structure, Reactivity, and Catalytic Properties,” A. Kulkarni, R. J. Lobo-Lapidus, and B. C. Gates, ChemComm, 46, 5997 (2010).
  8. “Zeolite-supported metal complexes of rhodium and of ruthenium: a general synthesis method influenced by molecular sieving effects,” I. Ogino, C.Y. Chen, and B. C. Gates, Dalton Transactions, 39, 8423 (2010).
  9. “Probing Surface Sites of TiO2: Reactions with HRe(CO)5 and CH3Re(CO)5,” R. J. Lobo-Lapidus and B. C. Gates, Chemistry – a European Journal, 16, 11386 (2010).
  10. “Supported Rhenium Complexes: Almost Uniform Rhenium Tricarbonyls Synthesized from CH3Re(CO)5 and HY Zeolite,” R. J. Lobo-Lapidus and B. C. Gates, Langmuir, 26, 16368 (2010).
  11. “Formation of a Manganese Tricarbonyl on the MgO Surface from Mn2(CO)10:  Characterization by Infrared, Electron Paramagnetic Resonance, and X-ray Absorption Spectroscopies,” S. Khabuanchalad, J. Wittayakun, R. J. Lobo-Lapidus, S. Stoll, R. D. Britt, and B. C. Gates, Journal of Physical Chemistry C , 114, 17212 (2010).
  12. “Towards full structure determination of bimetallic nanoparticles with an aberration-corrected electron microscope,” V. Ortalan, A. Uzun, B. C. Gates, and N. D. Browning, Nature Nanotechnology, 5, 843 (2010).
  13. “Atomic Resolution of the Structure of a Metal-Suport Interface: Triosmium Clusters on MgO(110),” A. Kulkarni, M. Chi, V. Ortalan, N. D. Browning, and B. C. Gates, Angewandte Chemie International Edition, 49, 10089 (2010).
  14. “Prototype Supported Metal Cluster Catalysts: Ir4 and Ir6,” A. Uzun, D. A. Dixon, and B. C. Gates, ChemCatChem, 3, 95 (2011).
  15. “Triosmium Clusters on a Support:  Determination of Structure by X-Ray Absorption Spectroscopy and High-Resolution Microscopy,” S. Mehraeen, A. Kulkarni, M. Chi, B. W. Reed, N. L. Okamoto, N. D. Browning, and  B. C. Gates, Chemistry—a European Journal, 17, 1000 (2011).
  16. “Zeolite-Supported Rhodium Complexes and Clusters: Switching Catalytic Selectivity by Controlling Structures of Essentially Molecular Species,” P. Serna and B. C. Gates, Journal of the American Chemical Society, 133, 4714 (2011).
  17. “Catalytic Reactions of Guaiacol: Reaction Network and Evidence of Oxygen Removal in the Reactions with Hydrogen,” T. Nimmanwudipong, R. C. Runnebaum, D. E. Block, and B. C. Gates, Catalysis Letters, 141, 779 (2011).
  18. “Catalytic Conversion of Anisole: Evidence of Oxygen Removal in Reactions with Hydrogen,” R. C. Runnebaum, T. Nimmanwudipong, D. E. Block, and B. C. Gates, Catalysis Letters, 141, 817 (2011).
  19. “A Bifunctional Mechanism for Ethene Dimerization: Catalysis by Rhodium Complexes on Zeolite HY in the Absence of Halides,” P. Serna and B. C. Gates, Angewandte Chemie International Edition, 50, 5528 (2011).
  20. “Cyclohexanone conversion catalyzed by Pt/γ-Al2 O3: evidence of oxygen removal and coupling reactions,” T. Nimmanwudipong, R. C. Runnebaum, K. Tav, D. E. Block, and B. C. Gates, Catalysis Letters, 141, 1072 (2011).
  21. “Catalytic Conversion of Guaiacol Catalyzed by Platinum Supported on Alumina: Reaction Network including Hydrodeoxygenation Reactions,” T. Nimmanwudipong, R. C. Runnebaum, D. E. Block, and B. C. Gates, Energy & Fuels, 25, 3417 (2011).
  22. “Supported Molecular Iridium Catalysts: Resolving Effects of Metal Nuclearity and Supports as Ligands,” J. Lu, P. Serna, C. Aydin, N. D. Browning, and B. C. Gates, Journal of the American Chemical Society, 133, 16186 (2011).
  23. “Zeolite-and MgO-Supported Molecular Iridium Complexes: Support and Ligand Effects in Catalysis of Ethene Hydrogenation and H-D Exchange in the Conversion of H2 and D2,” J. Lu, P. Serna, and B. C. Gates, ACS Catalysis, 1, 1549 (2011).
  24. Ir6 Clusters Compartmentalized in the Supercages of Zeolite NaY: Direct Imaging of a Catalyst with Aberration-Corrected Scanning Transmission Electron Microscopy,” C. Aydin, J. Lu, M. Shirai, N. D. Browning, and B. C. Gates, ACS Catalysis, 1, 1613 (2011).
  25. Conversion of Anisole Catalyzed by Platinum Supported on Alumina: The Reaction Network,” R. C. Runnebaum, R. Lobo-Lapidus, T. Nimmanwudipong, D. E. Block, and B. C. Gates,Energy & Fuels, 25,191 (2011).
  26. “Tracking Iridium Atoms with Electron Microscopy: First Steps of Metal Nanocluster Formation in One-Dimensional Zeolite Channels,” C. Aydin, J. Lu, A. J. Liang, C.-Y. Chen, N. D. Browning, and B. C. Gates, Nano Letters, 11, 5537 (2011).
  27. Catalytic Conversion of Compounds Representative of Lignin-derived Bio-oils: Pathways to Renewable Fuels and Chemicals,” R. C. Runnebaum, T. Nimmanwudipong, D. E. Block, and B. C. Gates, Catalysis Science and Technology, 2, 113 (2012).
  28. “Conversion of 4-methylanisole catalyzed by Pt/γ-Al2O3 and by Pt/SiO2-Al2O3: reaction networks and evidence of oxygen removal,” R. C. Runnebaum, T. Nimmanwudipong, R. R. Limbo, D. E. Block, and B. C. Gates, Catalysis Letters, 142, 7 (2012).
  29. “Upgrading of lignin-derived compounds: reactions of eugenol catalyzed by HY zeolite and Pt/γ-Al2O3,” T. Nimmanwudipong, R. C. Runnebaum, S. E. Ebeler, D. E. Block, and B. C. Gates, Catalysis Letters, 142, 151 (2012).
  30. “Atomically Dispersed Supported Metal Catalysis,” M. Flytzani-Stephanopoulos and B. C. Gates, Annual Reviews of Chemical and Biomolecular Engineering, 3,  545, (2012).
  31. “Imaging Isolated Gold Atom Catalytic Sites in Zeolite NaY,” J. Lu, C. Aydin, N. D. Browning, and B. C. Gates, Angewandte Chemie International Edition, 51, 5842 (2012).
  32. “Hydrogen Activation and Metal Hydride Formation Trigger Cluster Formation from Supported Iridium Complexes,” J. Lu, C. Aydin, N. D. Browning, and B. C. Gates, Journal of the American Chemical Society, 134, 5022 (2012).
  33. “A Smart Catalyst: Sinter-resistant Supported Iridium Clusters Visualized with Electron Microscopy,” C. Aydin, J. Lu, N. D. Browning, and B. C. Gates, Angewandte Chemie International Edition, 51, 5929 (2012).
  34. “Site-isolated Molecular Iridium Complex Catalyst Supported in the 1-Dimensional Channels of Zeolite HSSZ-53: Characterization by Spectroscopy and Aberration-Corrected Scanning Transmission Electron Microscopy,” J. Lu, C. Aydin, A. J. Liang, C.Y. Chen, N. D. Browning, and B. C. Gates, ACS Catalysis, 2, 1002 (2012).
  35. “Catalytic Conversion of Furan to Gasoline-Range Aliphatic Hydrocarbons via Ring Opening and Decarbonylation Reactions Catalyzed by Pt/γ-Al2O3,” R. C. Runnebaum, T. Nimmanwudipong, J. Doan, D. E. Block, and B. C. Gates, Catalysis Letters, 142, 664 (2012).
  36. “A Highly Selective Catalyst for Partial Hydrogenation of 1,3-Butadiene: MgO-Supported Rhodium Clusters Selectivity Poisoned with CO,” D. Yardimci, P. Serna, and B. C. Gates, ChemCatChem, 4, 1547 (2012).
  37. “Structures and Stability of Irn(CO)m,” M. Chen, J. E. Dyer, B. C. Gates, A. Katz and D. A. Dixon,  Molecular Physics, 110, 1977 (2012).
  38. “Atomically Resolved Site-Isolated Catalyst on MgO: Mononuclear Osmium Dicarbonyls formed from Os3(CO)12,” C. Aydin, A. Kulkarni, M. Chi, N. D. Browning, and B. C. Gates, Journal of Physical Chemistry Letters, 3, 1865 (2012).
  39. “Mononuclear Zeolite-Supported Iridium Catalyst: Kinetic, Spectroscopic, Electron Microscopic, and Size-Selective Poisoning Evidence for an Atomically Dispersed True Catalyst at 22 °C,” E. Bayram, J. Lu, C. Aydin, A. Uzun, N. D. Browning, B. C. Gates and R. G. Finke,  ACS Catalysis, 2, 1947 (2012).
  40. “Selective Hydrodeoxygenation of Guaiacol Catalyzed by Platinum Supported on Magnesium Oxide,” T. Nimmanwudipong, C. Aydin, J. Lu, R. Runnebaum, K. Brodwater, N. D. Browning, D. E. Block and B. C. Gates, Catalysis Letters, 142, 1190 (2012).
  41. “Oxide- and Zeolite-Supported Isostructural Ir(C2H4)2 Complexes: Molecular-level Observations of Electronic Effects of Supports as Ligands,” J. Lu, C. Aydin, N. D. Browning and B. C. Gates, Langmuir, 28, 12806 (2012).
  42. “Tuning Catalytic Selectivity: Zeolite- and Magnesium Oxide-Supported Molecular Rhodium Catalysts for Hydrogenation of 1,3-Butadiene,” D. Yardimci, P. Serna, and B. C. Gates, ACS Catalysis, 2, 2100 (2012).
  43. “Sinter-Resistant Catalysts: Supported Iridium Nanoclusters with Intrinsically Limited Sizes,” J. Lu, C. Aydin, N. D. Browning, L. Wang, and B. C. Gates, Catalysis Letters, 142, 1445 (2012).
  44. “Defragmenting Catalysis” (editorial), B. C. Gates and T. J. Marks, Angewandte Chemie International Edition, 51, 11644 (2012).
  45. “Surface-Mediated Synthesis of Dimeric Rhodium Catalysts on MgO: Tracking Changes in the Nuclearity and Ligand Environment of the Catalytically Active Sites by X-Ray Absorption and Infrared Spectroscopies,” D. Yardimci, P. Serna, and B. C. Gates, Chemistry A European Journal, 19, 1235 (2013).
  46. “Three-Dimensional Structural Analysis of MgO-Supported Osmium Clusters by Electron Microscopy with Single-Atom Sensitivity,” C. Aydin, A. Kulkarni, M. Chi, N. D. Browning, and B. C. Gates, Angewandte Chemie International Edition, 52, 5262 (2013).
  47. “Formation of MgO-Supported Manganese Carbonyl Complexes by Chemisorption of Mn(CO)5CH3,” S. Khabuanchalad, J. Wittayakun, R. J. Lobo-Lapidus, S. Stoll, R. D. Britt, and B. C. Gates, Langmuir, 29, 6279 (2013).
  48. “MgO-Supported Bimetallic Catalysts Consisting of Segregated, Essentially Molecular Rhodium and Osmium Species,” J. D. Kistler, P. Serna, and B. C. Gates, Dalton Transactions, 42, 12626 (2013).
  49. “Zeolite-Supported Bimetallic Catalyst: Controlling Selectivity of Rhodium Complexes by Nearby Iridium Complexes,” J. Lu, C. Martinez-Macias, C. Aydin, N. D. Browning, and B. C. Gates, Catalysis Science & Technology, 3, 2199 (2013).
  50. “Quantitative Z-Contrast Imaging of Supported Metal Complexes and Clusters – A Gateway to Understanding Catalysis on the Atomic Scale,” N. D. Browning, C. Aydin, J. Lu, A. Kulkarni, N. L. Okamoto, V. Ortalan, B. W. Reed, A. Uzun, and B. C. Gates, ChemCatChem, 5, 2673 (2013).
  51. “Supported Gold Catalysts: New Properties offered by Nanometer and Sub-Nanometer Structures,” B. C. Gates, ChemComm, 49, 7876 (2013).
  52. “Zeolite- and MgO-Supported Rhodium Complexes and Rhodium Clusters: Tuning Catalytic Properties to Control Carbon-Carbon vs. Carbon-Hydrogen Bond Formation Reactions of Ethene in the Presence of H2,” P. Serna and B. C. Gates, Journal of Catalysis, 308, 201 (2013).
  53. “Upgrading of Anisole in a Catalytic Pulsed Dielectric Barrier Discharge Plasma Reactor,” M. R. Rahimpour, A. Jahanmiri, P. Rostami, H. Taghvaei, and B. C. Gates, Energy&Fuels, 27, 7424 (2013).

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