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Invited Scientific Talks at Scientific Conferences Since 1991

1. Carbon Dioxide Activation by Metal Macrocycles, E. Fujita, International Symposium on Chemical Fixation of Carbon Dioxide, Nagoya, Japan, December 2-4, 1991

2. Carbon Dioxide Activation by Metal Macrocycles, E. Fujita, The Sixteenth DOE Solar Photochemistry Research Conference, Lake Lawn, Wisconsin, May 31 - June 4, 1992

3. Toward Photochemical Carbon Dioxide Activation by Transition Metal Complexes, Etsuko Fujita, B. S. Brunschwig, T. Ogata, S. Yanagida, The 10th International Symposium on the Photochemistry and Photophysics of Coordination Compounds, Sendai, Japan, July 25-30, 1993

4. C-H bond and Carbon Dioxide Activation by Cobalt Macrocycles. Evidence of Hydrogen Bonding between Bound CO2 and the Macrocycle in Solution, E. Fujita, The Post International Symposium on the Photochemistry and Photophysics of Coordination Compounds, Institute for Molecular Science, Okazaki, Japan, Aug. 4, 1993

5. Binding of Carbon Dioxide to Metal Macrocycles: Toward a Mechanistic Understanding of Electrochemical and Photochemical Carbon Dioxide Reduction, Etsuko Fujita, T. Ogata, S. Yanagida, and B. S. Brunschwig, The Second International Conference on Carbon Dioxide Utilization, Bari, Italy, Sept. 26-30, 1993

6. Mechanism and Kinetics of Photoreduction of CO2 with p-Terphenyl and Cobalt Macrocycles, T. Ogata, S. Yanagida, B. S. Brunschwig, and E. Fujita, The American Chemical Society Meeting, NERM Symposium, Burlington, VT, June 21-22, 1994

7. High Electrocatalytic Activity of RRSS-[NiIIHTIM](ClO4)2 and [NiIIDMC](ClO4)2 for Carbon Dioxide Reduction, Etsuko Fujita, Janet Haff, Ralf Sanzenbacher, and Horst Elias, XIX International Symposium on Macrocyclic Chemistry, Lawrence, KS, June 12-17, 1994

8. Electron Transfer in a Photocatalytic CO2 Reduction System, Etsuko Fujita, The Okazaki Symposium on Electron Transfer Chemistry, Okazaki, Japan, Nov. 24 - 25, 1994

9. Toward Photoreduction of CO2 with Ni(bpy)n2+ Complexes. Yukie Mori, Bruce S.

Brunschwig, Harold A. Schwarz, Etsuko Fujita, The 209th ACS National Meeting, Anaheim, CA, Apr. 2 - 6, 1995

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10. Higher Electrocatalytic Activity of Some Nickel(II) Macrocycle Complexes than that of Nicyclam(ClO4)2 for Carbon Dioxide Reduction: Structural Considerations, Etsuko Fujita, Janet Haff, Ralf Sanzenbacher, and Horst Elias, Kazuya Kobiro, Third International conference on Carbon Dioxide Utilization, Norman OK, Apr. 30 - May 4, 1995

11. Photoreduction of CO2 with Metal Complexes: Mechanism and Kinetics Studies , Minisymposium on Carbon Dioxide Utilization, National Chemical Laboratory for Industry, Tsukuba, Japan, Sept. 27, 1995

12. Photoreduction of Carbon Dioxide with Transition Metal Complexes, Etsuko Fujita, 1995 International Chemical Congress of Pacific Basin Societies, Inorganic Photochemistry: Applications in Bioinorganic Chemistry, Energy Conversion and Catalysis, Honolulu, HI, December 17 - 22, 1995

13. Photoreduction of CO2 using Metal Complexes, Etsuko Fujita, Plenary speaker and panel leader, DOE Workshop on Research Opportunities in Photochemical Sciences, Estes Park, Co, Feb. 5 - 8, 1996

14. Photochemical Carbon Dioxide Reduction with Metal Complexes, Etsuko Fujita, Mark M. Renner, Lars R. Furenlid, Tomoyuki Ogata, Shozo Yanagida, Yukie Mori, Craig Kelly, Diane Cabelli, Harold A. Schwarz, and Bruce S. Brunschwig, French Lick, Indiana, June 8-12, 1996

15. Photochemical Carbon Dioxide Reduction by Transition Metal Macrocycles, Etsuko Fujita, Keynote speaker and panel member, The Fourth International Conference on Carbon Dioxide Utilization, Kyoto, Japan, Sept. 7 - 11, 1997

16. Carbon Dioxide Reduction catalyzed by Metalloporphyrins: Interaction of reduced Iron- and Cobalt Porphyrins with CO2 Etsuko Fujita, Bruce Brunschwig, Peter Hambright, and Pedatsur Neta, in the CO2 Symposium at the ACS Meeting in Dallas, March 30, 1998

17. Mechanistic and Kinetic Studies on Carbon Dioxide Reduction, E. Fujita, Twenty-second DOE Solar Photochemistry Research Conference, Chantilly, VA, June 7-10, 1998

18. Photochemical Carbon Dioxide Reduction with Metal Complexes, E. Fujita, Thirty-third International Conference on Coordination Chemistry, Florence, Italy, Aug. 30- Sept. 4, 1998

19. Photochemical Carbon Dioxide Reduction with Metal Complexes, E. Fujita, DOE National Laboratory Catalysis Research Symposium, Albuquerque, NM, Feb. 24 - 25, 1999

20. Photochemical Carbon Dioxide Reduction using Metal Complexes: Current Status and Future Prospects, E. Fujita, DOE Workshop on Opportunities for Catalysis in Carbon Management, Santa Fe, NM, Apr. 3 - May 4, 1999

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21. Characterization of Ru(bpy)2(CO)(COO) prepared by CO2 Addition to Ru(bpy)2(CO) in Actetonitrile, Etsuko Fujita, Mei Chou, and Koji Tanaka, The Fifth International Conference on Carbon Dioxide Utilization, Karlsruhe, Germany, Sept. 5 - 10, 1999

22. Carbon Dioxide Utilization: Pulse Radiolytic and Photochemical Approaches, E. Fujita, Gordon Research Conference on Radiation Chemistry, Plymouth State College, NH, June 25-30, 2000

23. Recent Developments and Future Prospects in Photochemical CO2 Reduction, E. Fujita, Overview talk at the Thirteenth International Conference on Photochemical Conversion and Storage of Solar Energy, Snowmass, CO, July 30-Aug. 4, 2000

24. Transient FTIR Study of the Re(dmb)(CO)2 radical Reactions in Photochemical CO2 Reduction, Etsuko Fujita, Kazuteru Shinozaki, and Bruce S. Brunschwig, 2000 National Laboratory Catalysis Research Conference, Argonne National Laboratory, IL, Oct. 12-13, 2000

25. Effects of Solvent, Cation, and Pressure on Metal-to CO2 Charge Transfer in M-CO2 Complexes, E. Fujita, The 2000 International Chemical Congress of Pacific Basin Societies, Honolulu, HI, Dec. 14-19, 2000

26. Transient FTIR Study of Rhenium Complexes in Photochemical CO2 Reduction, E. Fujita, Y. Hayashi, S. Kita, K. Shinozaki, and B.S. Brunschwig, Talk given at the Sixth International Conference on Carbon Dioxide Utilization, Beaver Run Resort and Conference Center, Breckenridge, CO, September 9-14, 2001

27. Photodriven Chemical Reactions of Metal Complexes Involving CO2, H2, H+, CO and N2, E. Fujita, The Twenty-fifth DOE Solar Photochemistry Research Conference, Airlie Conference Center, Airlie, VA, June 7 – 10, 2002

28. Identification of Intermediates in Photochemical CO2 Reduction with Rhenium Complexes, Etsuko Fujita, Y. Hayashi, S, Kita and B. S. Brunschwig, 2002 National Laboratory Catalysis Research Conference, Pacific Northwest National Laboratory, WA, May 22-23, 2002

29. Photocatalytic CO2 Reduction with Rhenium(I) Diimine Complexes, Etsuko Fujita, Yukiko Hayashi, Shouichi Kita, and Bruce S. Brunschwig, XXIst ICP Satellite Symposium on Photochemistry and Photobiology of Complexes Including Supramolecular Systems and Coordination Compounds, Kusatsu, Japan, August 1-3, 2003

30. What Have We Learned about Photochemical CO2 Reduction Using Metal Complexes? Etsuko Fujita International Symposium on Photochemistry in Supramolecular Environment for Artificial Photosynthesis-Development of Artificial Photosynthetic System Using Water as Electron Source, Tokyo Metropolitan University, Hachioji, Japan, August 5-6, 2003

31. Photoinduced Re-Re Bond Homolysis: Experimental and Theoretical Studies on Reactivity of Ligand Radicals, Etsuko Fujita, Yukiko Hayashi, Bruce S.

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Brunschwig and James T. Muckerman XXIst International Conference on Photochemistry, Nara, Japan, July 26-31, 2003

32. Carbon Dioxide Reduction by Re(I) Diimine Complexes: Formation of Re-C(O)O-Re and Re-Re Complexes from the One-electron-reduced Species, Etsuko Fujita, Yukiko Hayashi, Bruce S. Brunschwig and James T. Muckerman, The 226th ACS National Meeting, New York, NY, September 7-11, 2003

33. Transition-Metal Based Photocatalysis for CO2 Reduction, Etsuko Fujita, Yukiko Hayashi, Shouichi Kita and Bruce S. Brunschwig, 7th International Conference on Carbon Dioxide Utilization, Seoul, Korea, October 12-16, 2003

34. Experimental and Theoretical Studies on the Thermodynamics and Kinetics of H2 and D2 Binding to Rh(bpy)2+, The 227th ACS Meeting, Anaheim, CA, March 28- April 1, 2004

35. Photoinduced Chemical Reactions of Metal Complexes: M-M Bond Formation/Cleavage and Small Molecule Activation, The 27th DOE Solar Photochemistry Research Conference, Airlie Conference Center, Airlie, VA, June 8-11, 2004

36. Why is Re-Re Bond Formation in [Re(bpy)(CO)3]2 Different from that in [Re(CO)5]2? Experimental and Theoretical Studies on the Dimers and Fragments, The 36th International Conference on Coordination Chemistry, Merida, Mexico, July 18-23, 2004

37. Thermodynamics, Kinetics and Isotope Effects on M-L Bond Formation/Cleavage (L = H2, D2, C2H4, CO, N2, etc.), David Grills, James T. Muckerman, Rudi van Eldik and Etsuko Fujita, at The 16th International Symposium on the Photochemistry and Photophysics of Coordination Compounds, July 2-6, 2005, Asilomar Conference center, Pacific Grove, CA

38. Photoinduced Chemical Reactions of Metal Complexes: M-M Bond Formation/Cleavage and Small Molecule Activation, Etsuko Fujita, at the International Conference on Functional Coordination Chemistry, March 7-8, 2005, Okazaki, Aichi, Japan

39. Carbon Dioxide Reduction with Rhenium Complexes: Why Do the One-Electron-Reduced Intermediates React Slowly with CO2? Etsuko Fujita, David C. Grills, Kuo-Wei Huang, and James T. Muckerman, at The 8th International Conference on Carbon Dioxide Utilization, June 20-23, 2005, Oslo, Norway

40. Photochemical Properties of Functionalized Polypyridylruthenium Complexes with an NAD+/NADH Model Ligand, Etsuko Fujita, Take-aki Koizumi and Koji Tanaka, at PACIFICHEM 2005, December 15-20, 2005, Honolulu, Hawaii

41. Photoinduced Small Molecule Activation and M-M Bond Formation/Cleavage: Investigations by Time-Resolved UV-vis and FTIR Spectroscopy, E. Fujita, Mesilla

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Workshop on Organometallic Complexes: Energetics-Solvation-Reactions, Meson de Mesilla, Mesilla, NM, February 4-8, 2006

42. Coupled Proton and Electron Transfer with Ruthenium and Osmium Complexes, E. Fujita, International Symposium on Multi-Electron Redox Catalysis, Innovation Center, Tokyo Institute of Technology, Tamachi, Tokyo, March 3, 2006

43. Photochemical Properties of Functionalized Polypyridylruthenium Complexes with an NAD+/NADH Model Ligand, E. Fujita, International Symposium on Frontier Life Science and Technology, Osaka, Japan, April 7-9, 2006

44. Photoinduced Reaction of Functionalized Polypyridylruthenium Complexes with an NAD+/NADH Model Ligand, E. Fujita, D. Polyansky, D. Cabelli, J. T. Muckerman, T. Koizumi and K. Tanaka The 16th International conference on Photochemical Conversion and Storage of Solar Energy, Uppsala, Sweden, July 2-7, 2006

45. Photochemical Water Oxidation with Ru Catalysts, E. Fujita, D. Polyansky, and J. T. Muckerman, The 35th Northeast Regional ACS Meeting, Binghamton, NY, October 5-7, 2006

46. Toward Photochemical Water Oxidation with Band-Gap-Narrowed Semiconductors and Polypyridylruthenium Complexes as Catalysts, E. Fujita, D. Polyansky, and J. T. Muckerman, The 62nd Southwest Regional ACS Meeting, Houston, TX, October 19-21, 2006

47. Toward Photochemical Water Oxidation with Band-Gap-Narrowed Semiconductors and Polypyridylruthenium Complexes as Catalysts, E. Fujita, The First Annual the Caltech-MIT Chemical Bonding Center Retreat, January 26-27, 2007, Ventura, CA

48. Photochemical Production of a Functionalized Polypyridylruthenium Hydride Donor, E. Fujita, The 233rd ACS National Meeting, Chicago, IL, March 25-29, 2007

49. Photochemical Production of a Functionalized Polypyridylruthenium Hydride Donor, E. Fujita, D. E. Polyansky, D. Cabelli, J. T. Muckerman, and K. Tanaka, The 233rd ACS National Meeting, Symposium on “Catalysis Relevant to Energy and Sustainability”, Chicago, IL, March 25-29, 2007

50. Photochemical Production of Hydride Donor via a MLCT-Excited State of a Ru(II) Complex, E. Fujita, D. E. Polyansky, D. Cabelli, J. T. Muckerman, and K. Tanaka, Central Regional Meeting of the American Chemical Society, Symposium on “Illuminating Molecules” Northern Kentucky Convention Center, Covington, KY, May 20-23, 2007.

51. Catalyzed Water Oxidation by Solar Irradiation of Band-Gap-Narrowed Semiconductors, E. Fujita, J. T. Muckerman, S. Lymar, J. Rodriguez, and P. Sutter, The Twenty-Ninth DOE Solar Photochemistry Research Conference, Airlie Conference Center, Warrenton, Virginia, June 10-13, 2007

52. Photochemical Production of Hydride Donor via a MLCT Excited State of a Ru(II) Complex, E. Fujita, D. E. Polyansky, D. Cabelli, J. T. Muckerman, T. Fukushima and K. Tanaka, 7th International Symposium on the Photochemistry and

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Photophysics of Coordination Compounds, Trinity College, Dublin, Ireland, June 24-28, 2007

53. Photochemical Production of Hydride Donor with a Ruthenium Complex with an NAD+ Model Ligand, E. Fujita, D. E. Polyansky, D. Cabelli, K. Tanaka and J. T. Muckerman, A Satellite Meeting of the 14th International Congress on Photosynthesis, The Royal Society, London, July 16-19, 2007.

54. Solar Fuel Generation: Water Splitting and CO2 Reduction, Etsuko Fujita, Stony Brook/Brookhaven Symposium on Catalysis, Wang Center, Stony Brook University, Stony Brook, March 31, 2008

55. Photochemical CO2 Reduction by Rhenium and Ruthenium Complexes, Etsuko Fujita, James T. Muckerman, and Koji Tanaka, The 235th ACS National Meeting, Symposium on “Hybrid Nanotechnologies for an Enhanced CO2 Fixation”, New Orleans, Louisiana, April 6-10, 2008

56. Catalyzed Water Oxidation by Solar Irradiation of Band-Gap-Narrowed Semiconductors, Etsuko Fujita and James T. Muckerman, Hydrogen Fuel Initiative Contractors’ Meeting, Arlington, VA, June 9-13, 2008

57. Toward CO2 Reduction using Photochemically Produced Hydride Donors, E. Fujita, NSF workshop on “Reversing Global Warming: Chemical Recycling and Utilization of CO2”, the Davidson Conference Center, University of Southern California, LA, July 9-10, 2008

58. Photochemical CO2 Reduction: Current Status and Future Prospects, Etsuko Fujita, Workshop on “Efficient Conversion of Solar Energy to Electricity and Fuels: Critical Research Directions and Tutorial”, Boulder, CO, August 13-15, 2008

59. Water Oxidation Catalysts: Ruthenium Complexes with Non-Innocent Quinone Ligands, Etsuko Fujita, Tohru Wada, Koji Tanaka, and James T. Muckerman, The 236th ACS National Meeting in Philadelphia, PA, Symposium on “Guilty Pleasures: The Joys of Metal Complexes of Non-Innocent, Redox-Active Ligands”, August 17-21, 2008,

60. Photochemical generation of A Hydride Donor and Its Reactions, E. Fujita, D. E. Polyansky, D. Cabelli, P. Achord, T. Fukushima, K. Tanaka, and J.T. Muckerman, Japan Society of Coordination Compounds, 58th Conference in Kanazawa, Japan, Sept. 20-22, 2008 (Invited Talk)

61. Photochemical CO2 Reduction: Current Status and Challenges, E. Fujita, Osaka University Forum 2008 in San Francisco, Global COE Program, Bio-Environmental Chemistry, San Francisco, CA, December 8-10, 2008

62. A Coordination Chemistry Approach to Artificial Photosynthesis, E. Fujita, Keynote speaker, Graduate Research Seminar, Gordon Research Conference on Renewable Energy: Solar Fuels, Ventura, CA, January 31-February 1, 2009

63. Toward Photochemical CO2 Reduction using Renewable Hydride Donors, E. Fujita, Gordon Research Conference on Renewable Energy: Solar Fuels, Ventura, CA, February 1-5, 2009.

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64. Toward More Efficient Photochemical CO2 Reduction: Use of scCO2 or Photogenerated Hydrides, Etsuko Fujita, Mark Doherty, David C. Grills, James T. Muckerman and Dmitry E. Polyansky, The 237th ACS National Meeting in Salt Lake City, UT, Symposium on “Capturing and Storing Solar Energy - Inorganic Chemistry to the Rescue”, March 21-26, 2009 (Invited Talk)

65. Photogeneration of Hydride Donors and Their Use toward CO2 Reduction, Etsuko Fujita, James T. Muckerman, Dmitry E. Polyansky, The 31st DOE Solar Photochemistry Research Conference, Westin Annapolis Hotel, Annapolis, MD, June 7-10, 2009

66. Kinetics and Thermodynamics of Small Molecule binding to a RhI(PCP) Complex: Direct Addition to a Three-Coordinate Intermediate, Etsuko Fujita, Mark D. Doherty, David C. Grills, Kuo-Wei Huang, James T. Muckerman, Dmitry E. Polyansky, and Rudi van Eldik, The 18th International Symposium on the Photochemistry and Photophysics of Coordination Compounds, Sapporo, Japan, July 4 – 9, 2009.

67. Toward more efficient photochemical CO2 reduction: Use of scCO2 or photogenerated hydrides, Etsuko Fujita, Mark D. Doherty, David C. Grills, James T. Muckerman, Dmitry E. Polyansky, and Koji Tanaka, Mechanisms in Chemistry, The 42nd IUPAC Congress Chemistry Solutions, Aug. 2-7, 2009, Glasgow, UK

68. Water oxidation by molecular catalysts having a proton relay or a non-innocent ligand, Etsuko Fujita, Julie Boyer, James T. Muckerman, Dmitry E. Polyansky, Koji Tanaka, Randolph Thummel, Tohru Wada, and Ruifa Zong, International Conference on Molecular Science for Solar Fuel, Sigtuna, Sweden, Nov. 1-5, 2009

69. Stereo-specific photochemical generation of a C-H hydride donor and its reactions toward CO2 reduction (a contributed talk presented by Fujita) Etsuko Fujita, Takashi Fukushima, James T. Muckerman, Dmitry E. Polyansky, and Koji Tanaka, 238th ACS National Meeting, Washington, D.C., Aug. 16-20, 2009, Symposium: The Physical Chemistry of Photon to Fuel Conversion

70. Redox Catalysis for Solar Fuel Generation, Etsuko Fujita and James T. Muckerman, The 239th ACS National Meeting, Symposium on "Solar Cells and Solar Fuels", Fuel Chemistry Division, San Francisco, March 21-25, 2010

71. Photochemical CO2 Reduction using Transition Metal Complexes: Current Status and Future Prospects, The 90th CSJ Spring Meeting, Symposium on “Photoenergy and Materials Conversion: Future for Artificial Photosynthesis”, Kinki University, Higashi-Osaka, Japan, March 26-29, 2010

72. Photochemical CO2 Reduction: Current Status and Challenges, Symposium on Sustainable Fuels from CO2, H2O and Carbon-Free Energy, May 4, 2010, Columbia University, New York, NY

73. Solar Fuel Generation Research at BNL: Photochemical Water Splitting and CO2 Reduction, The 3rd Argonne-Northwestern Solar Energy Research (ANSER) Center Symposium, May 6-7, 2010.

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74. Artificial Photosynthesis: Current Status and Challenges, The 1st METI-DOE Clean Energy Workshop, Albuquerque, NM, June 2-6, 2010

75. Redox Catalysis for Solar Fuel Generation, Gordon Research Conference on Inorganic Chemistry, The University of New England, Biddeford, Maine, June 20-25, 2010.

76. Redox Catalysis for Solar Fuel Generation, The 2nd International Symposium on Solar Fuels and Solar Cells, Dalian, China, August 28-31, 2010.

77. Solar Fuel Generation using Coordination Compounds: Water Splitting and CO2 Reduction, The 60th JSCC meeting and 60CCCO in Osaka, Osaka, Japan, September 28-30, 2010

78. Redox Catalysis for Solar Fuel Generation, The General Electric Global Research Center's, "Solar Fuels Symposium," The GE Global Research Center in Niskayuna, November 1, 2010.

79. Characterization of Ruthenium 2-Iminoquinone Complexes through Experimental and Theoretical Studies, Jonathan Rochford, Ming-Kang Tsai, James T. Muckerman, and Etsuko Fujita, PACIFICHEM 2010, Symposium on "Redox Redux: The Renaissance on Non-innocent Ligand Complexes", Honolulu, HI, December 15-20, 2010.

80. Solar Fuel Generation using Transition Metal Complexes, E. Fujita and J. T. Muckerman, PACIFICHEM 2010, Symposium on "Coordination Chemistry toward Artificial Photosynthesis and Energy Conversion Processes", Honolulu, HI, December 15-20, 2010.

81. Photochemical CO2 Reduction: Current Status and Future Prospects, ACS New York Section-Wide Conference, Jan. 15, 2011, Invited by Prof. Hiroko Karan, 2011 Chair of the ACS New York Section

82. Photochemical CO2 reduction: Going beyond the current problems, Etsuko Fujita, Carol Creutz, David C. Grills, James T. Muckerman, and Dmitry E. Polyansky The 241st ACS National Meeting, “Symposium on Chemical Carbon Mitigation – A Physiochemical Approach”, The 241st ACS National Meeting, “Symposium on Chemical Carbon Mitigation – A Physiochemical Approach”, Anaheim Convention Center, Anaheim, CA, March 27-31, 2011

83. Catalyzed Water Oxidation by Solar Irradiation of Band-Gap-Narrowed Semiconductors, Etsuko Fujita, James T. Muckerman, Dmitry E. Polyansky and J. A. Rodriguez, The 33rd DOE Solar Photochemistry Research Conference, Wintergreen, VA June 5-8, 2011

84. Solar Fuel Production from Carbon Dioxide, 11th International Conference on Carbon Dioxide Utilization, Etsuko Fujita, June 27-30, 2011, Université de Bourgogne, Dijon, France (Invitation from Prof. Danielle Ballivet-Tkatchenk)

85. Carbon dioxide reduction using transition-metal complexes, Etsuko Fujita and Carol Creutz, The 242nd ACS National Meeting, a special symposium “100th Year Anniversary of Marie Curie’s Nobel Prize”, Physical Chemistry Division, Denver,

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CO, Aug. 28- Sep. 1, 2011. (Invitation from Prof. Geraldine L. Richmond, canceled due to Hurricane Irene)

86. Characterization of intermediates involved in water oxidation and CO2 reduction, Etsuko Fujita, James T. Muckerman, Dmitry E. Polyansky, Ruifa Zong, and Randolph P. Thummel The 242nd ACS National Meeting, Symposium on "Fifty Years of Inorganic Chemistry - A Celebration of Past, Present and Future" August 28-31, 2011, Denver, CO, ((Invitation from Prof. Richard Eisenberg, canceled due to Hurricane Irene)

87. Steric Effect for Proton, Hydrogen-Atom, and Hydride Transfer Reactions with Geometric Isomers of NADH-Model Ruthenium Complexes, B. W. Cohen, D. E. Polyansky, P. Achord, D. Cabelli, J. T. Muckerman, K. Tanaka, R. P. Thummel, R. Zong, and E. Fujita, Artificial Photosynthesis: Faraday Discussion 155, September 5-7, 2011, Edinburgh, UK, invited by Prof. Anthony Harriman

88. Water Oxidation with Mononuclear Ru Complexes with Pendent Bases, Etsuko Fujita, James T. Muckerman, Dmitry E. Polyansky, Ruifa Zong, and Randolph P. Thummel, Post Faraday Discussion 155 Meeting, September 8-9, 2011 Edinburgh, UK

89. Water oxidation with Mononuclear Ru Complexes with Pendent Bases, Etsuko Fujita, Julie Boyer, James T. Muckerman, Dmitry E. Polyansky, Ruifa Zong, Randolph P. Thummel, PCET 2011, Loire Valley, France, Oct.9-13, 2011

90. Photochemical CO2 Reduction: Current Status and Future Prospects, DOE Basic Energy Sciences CO2 Workshop, “CO2 reduction: comparing natural and synthetic systems”, Chair: Dan DuBois: Co-Chairs: Stephen Ragsdale and Thomas Rauchfuss, October 24-26, 2011, Annapolis, MD.

91. Solar Fuels Generation using Transition-Metal Molecular Catalysts, The Natural and Artificial Photosynthesis Conference, RPI, November 4-5, 2011, Invite by Prof. K. V. Lakshmi

92. Solar Fuels Generation using Transition-Metal Molecular Catalysts, Etsuko Fujita, James T. Muckerman, and Dmitry E. Polyansky, International Forum on Photo-energy Future (IFPF), December 7-9, 2011, Jeju Island, Korea, Invited by Prof. Sang Ook Kang

93. Solar Fuels Generation by Transition Metals, D. E. Polyansky, J. T. Muckerman, Y. Badiei, R. Haberdar, R. Zong, R. P. Thummel and E. Fujita, the 95th Canadian Society for Chemistry (CSC) Conference to be held in Calgary from May 26-30, 2012, Invited by Prof. Curtis Paul Berlinguette

94. Artificial Photosynthesis for Fuel Generation and Water Oxidation, Gordon Research Conference on Photosynthesis in a session titled "Artificial Photosynthesis." This conference will be held July 8-13, 2012 at Davidson College in Davidson, North Carolina, invited by Prof. Richard J. Debus

95. Carbon Dioxide Reduction: Current Status and Future Prospects, the Solar Fuels Institute (SOFI) Launch Event, Telluride, Colorado, Aug. 12-15, 2012, invited by Prof. Mike Wasielewski

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96. Artificial Photosynthesis: CO2 Reduction with Metal Complexes having Pendent Bases and Water Oxidation with Ru Mononuclear Complexes, E. Fujita, J. F. Hull, J. T. Muckeman, D. E. Polyansky, W.-H. Wang, and Y. Himeda, Japan Society Coordination Chemistry (JSCC) 62nd Conference, Toyama, Japan, Sept. 21-23, 2012, invited by Dr. Qiang Xu and Prof. Hiroshi Kitagawa

97. CO2 Reduction and Water Oxidation with Metal Complexes having Pendent Bases, Symposium on Solar Energy Conversion, Niigata University, Niigata, Japan, invited by Prof. Masayuki Yagi, Sept. 24, 2012.

98. Solar fuels generation, E. Fujita, Battelle sponsored symposium "Women in Science and Engineering (WISE)", Feb. 28 - Mar. 1, 2012. CO2 Hydrogenation and Formic Acid Decomposition with Ir Complexes with Pendent Bases, J. F. Hull, W.-H Wang, Y. Himada, J. T. Muckerman, and E. Fujita

99. Water Oxidation by Solar Irradiation of Band-Gap-Narrowed Semiconductors with Catalysts, Etsuko Fujita, James T. Muckerman, and Dmitry E. Polyansky, International Conference on Nanostructured Systems for Solar Fuel Production, Mallorca, Spain, Mar. 25-27, 2012 (Contributed talk by Fujita)

100. CO2 Hydrogenation with Ir Complexes with Pendent Bases and H2 Production by NiMoNx and Co(dmgBF2)2, E. Fujita, J. T. Muckerman, K. Sasaki and Y. Himeda, The 19th International Conference on Photochemical Conversion and Storage of Solar Energy, California Institute of Technology, Pasadena, CA, July 29-Aug. 3, 2012

101. CO2 Hydrogenation and Formic Acid Decomposition with Ir Complexes with Pendent Bases, J. F. Hull, W.-H Wang, Y. Himada, J. T. Muckerman, and E. Fujita The International CECAM-Workshop “Future Challenges in CO2 Reduction”, Bremen Center for Computational Materials Science, University of Bremen, Bremen, Germany, Oct. 8-12, 2012

102. Is Thermal CO2 Hydrogenation Better than Direct Photochemical CO2 Reduction? Invited talk in the Second Biannual Carbon Dioxide Workshop on ‘Future Directions in CO2 Conversion Chemistry’, Princeton University, Princeton, NJ, Nov. 9, 2012, invited by Prof. Andrew Bocarsly.

103. Is Thermal CO2 Hydrogenation Better than Direct Photochemical CO2 Reduction? Etsuko Fujita, Yuichiro Himeda and James T. Muckerman, Invited talk in the EFRC symposium on “Photonic Assemblies, Materials, and Catalysts for Solar Fuels”, Southeast Regional Meeting of the American Chemical Society, Raleigh, NC, Nov. 14-15, 2012 invited by Prof. Kirk Schanze

104. Is Thermal CO2 Hydrogenation Better than Direct Photochemical CO2 Reduction? Keynote speaker MiniSymposium, King Abdullah University of Science and Technology (KAUST), Thuwal, Saudi Arabia, Dec. 16-20, 2012, invited by Prof. Kuo-Wei Huang

105. Photochemical CO2 Reduction: Current Status and Future Prospects. invited talk at the Umeå Renewable Energy Meeting (UREM) 2013, Umeå, Sweden, Feb. 25-27, 2013, invited by Prof. Johannes Messinger.

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106. Artificial Photosynthesis for Fuel Generation and Water Oxidation, Plenary lecture at XIV Netherlands’ Catalysis and Chemistry Conference (NCCC), March 11-13 2013 in Noordwijkerhout, Netherlands, invited by Dr. Joost N. H. Reek.

107. BNL’s Research on Solar Fuels Generation using Transition-Metal Catalysts, Etsuko Fujita and James T. Muckerman, BNL-AIST Clear Energy Meeting, March 26, 2013, Tsukuba, Japan, Invited by Dr. Yuichiro Himada.

108. Interconversion of CO2 and Formic Acid by Bio-Inspired Complexes with Pendent Bases, Etsuko Fujita, Yosra Badiei, Jonathan F. Hull, James T. Muckerman, Wan-Hui Wang, and Yuichiro Himeda, The symposium in honor of Dan DuBois’ at the 245th ACS National Meeting, April 7-11, 2013 New Orleans, LA. Invited by Dr. Aaron Appel

109. Alternatives to Direct Photochemical CO2 Reduction: CO2 Hydrogenation by Complexes with a Proton Responsive Ligand Containing Pendent Bases, GRC on Organometallic, Newport, Rhode Island, July 7-12, 2013, invited by Dr. Jim Boncella

110. From CO2 hydrogenation by solar produced H2 to photochemical water oxidation, Etsuko Fujita, Yosra Badiei, Wei-Fu Chen, Anna Lewandowska-Andralojc, James T. Muckerman, Dmitry E. Polyansky, Kotaro Sasaki, Wan-Hui Wang and Yuichiro Himeda, ACS symposium “Physical Chemistry of Solar Energy Conversion” at the 246th ACS National Meeting, Indianapolis, Indiana, September 8-12, 2013. Professors R. Brian Dyer and Tim Lian

111. Alternatives to Direct Photochemical CO2 Reduction: CO2 Hydrogenation by Complexes with a Proton Responsive Ligand Containing Pendent Bases, I2CNER (International Institute for Carbon Neutral Energy Center) Symposium: Catalytic Concepts for Energy at U. Illinois at Urbana on (International Institute for Carbon-Neutral Energy Research), Sept 13, 2013, invited by Prof. Tom Rauchfuss

112. Alternatives to Direct Photochemical CO2 Reduction: CO2 Hydrogenation by Ir Complexes with a Proton-Responsive Ligand Containing Pendent Bases, E. Fujita, J. T. Muckerman, W.-F. Chen, K. Sasaki, W.-H. Wang and Y. Himeda, ICCDU XII, Alexandria, VA, July 23-27, 2013

113. Mechanistic Insight into Effective Hydrogenation of CO2 by Complexes with a Proton-Responsive Ligand Containing Pendent Bases, Etsuko Fujita, James T. Muckerman, Yosra M. Badiei, David J. Szalda, Jonathan F. Hull, Wan-Hui Wang and Yuichiro Himeda, ISACS12 Challenges on Chemical Renewable Energy, Sept. 3-6, Cambridge, UK

114. Artificial Photosynthesis for Fuel Generation and Water Oxidation, The Second Symposium on Solar Energy Conversion by Artificial Photosynthesis, Ritsumeikan University, Kyoto, Japan, Oct. 26-27, 2013, Invited by Prof. Haruo Inoue.

115. CO2 hydrogenation vs. Photo- and Electrochemical CO2 Reduction, GRC on Renewable Energy: Solar Fuels, Ventura, California, January 19-24, 2014, Invited by Prof. Mike Wasielewski.

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116. Alternatives to Direct Photochemical CO2 Reduction: CO2 Hydrogenation by Bioinspired Complexes and Biomass-Derived H2 Evolution Catalysts, Etsuko Fujita, Wei-Fu Chen, James T. Muckerman, Kotaro Sasaki, Wan-Hui Wang and Yuichiro Himeda, Fusion Conference on Molecules and Materials for Artificial Photosynthesis Conference, February 6 - 9, 2014, Cancun, Mexico, Invited by Prof. Antoni Llobet.

117. Carbon dioxide reduction with bio-inspired catalysts: Electrochemical CO2 reduction vs CO2 hydrogenation, Symposium “Molecular Inorganic Chemistry at the Frontiers of Energy Research” the Spring ACS National Meeting in Dallas, TX, March 16-20, 2014, Invited by Prof. Phil. Castellano.

118. Nano-size non-noble metal catalysts immobilized on graphene for the hydrogen evolution reaction, Symposium "Nanotechnology for Energy and Environmental Science", the Spring ACS National Meeting in Dallas, TX, Mar 16-20, 2014, Invited by Prof. Jie Song.

119. Current Status and Challenges on Photochemical Water Oxidation and CO2 Reduction, Workshop on Defining Standard Conditions for Testing Supramolecular Photocatalysts, Dublin 16th to the 18th of April 2014, invited by Prof. Han Vos.

120. Artificial Photosynthesis for Photogeneration of Fuels, E. Fujita, D. E. Polyansky, D.C. Grills and J. T. Muckerman, DOE Solar Photochemistry Meeting, Annapolis, MD, June 1-4, 2014, Invited by Dr. M. Spitler.

121. From CO2 hydrogenation by solar produced H2 to photochemical water oxidation, Royal Society Meeting: Do we need a global project on artificial photosynthesis? The Royal Society at Chicheley Hall, Buckinghamshire, UK, July 8-10, 2014, Invited by The Royal Society and Prof. Tom Faunce,

122. Mechanistic Insight into Hydrogen Atom Transfer, Hydride Transfer and Dihydrogen Heterolysis, GRC on Electron Donor-Acceptor Interactions, Salve Regina University, Newport, RI, Aug. 3-8, 2014, Invited by Prof. Michael Elliott and Prof. David Waldeck.

123. Theoretical and experimental approaches meet in solar fuel generation, Etsuko Fujita, James T. Muckerman, and Yuichiro Himeda, Symposium “Renewable Energy Generation at the Interface between Theory and Experiment", The 248th ACS meeting in San Francisco, CA, August 10-14, 2014, Invited by Prof. Amanda Morris.

124. Artificial photosynthesis for generation of fuels, Etsuko Fujita, James T, Muckerman, Yuichiro Himeda, The 4th International Symposium for Solar Fuels and Solar Cells, Oct. 21-24, 2014, in Dalian, China. Invited by Prof. Can Li and Prof. Licheng Sun (Keynote talk).

125. Is water or acetonitrile the better solvent, Carol Creutz Symposium, Chemistry Department, Brookhaven National Laboratory, Oct. 29, 2014.

126. From CO2 hydrogenation by solar produced H2 to photochemical water oxidation, Etsuko Fujita, James T. Muckerman, Kotaro Sasaki, and Yuichiro Himeda, The 2014 International Conference on Artificial Photosynthesis (ICARP2014), Awaji

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Yumebutai International Conference Center, Awaji City, Hyogo, Japan, November 24-28, 2014. Invited by Prof. Haruo Inoue.

127. Artificial Photosynthesis for Generation of Fuels using Molecular Catalysts and Metal Carbide-Nitride Composites, The 1st International Solar Fuels conference (ISF-1), Artificial Photosynthesis for Generation of Fuels using Molecular Catalysts and Metal Carbide-Nitride Composites, Etsuko Fujita, James T. Muckerman, Kotaro Sasaki, and Yuichiro Himeda, Uppsala, Sweden, April 26-May 1 2015. Invited by Prof. Peter Lindblad and Prof. Stenbjörn Styring.

128. Reduction of CO2 using Metal Complexes: Second Coordination Sphere Effects and Hydride Transfer Reactions, KAUST Research Conference: Catalysis for Artificial Photosynthesis, Feb. 1-3, 2016. Invited by Prof. Jean Marrie Basset and Prof. Kazuhiro Takanabe.

129. Reduction of CO2 using Metal Complexes: Second Coordination Sphere Effects and Hydride Transfer Reactions, Etsuko Fujita,Gerald F. Manbeck,Lele Duan, Komal Garg, Yasuo Matsubara, James T. Muckerman, and Yuichiro Himeda,, The Second Molecules and Materials for Artificial Photosynthesis Conference, Feb. 25-28, 2016 at the Fiesta Americana Condesa, Cancun, Mexico. Invited by Prof. Antoni Llobet and Prof. Jin Zhang.

130. CO2 Hydrogenations as an Alternative to Photo- and Electrochemical CO2 Reduction, a symposium on “Exploring Alternative Energy: CO2 as a Resource” on Friday April 29, University of Rochester, invited by William Jones.

131. CO2 hydrogenation and Formic acid dehydrogenation by Half-Sandwich Cp*Ir Complexes with Proton-Responsive Ligands in Water, Etsuko Fujita, James T. Muckerman, and Yuichiro Himeda, The Second Small Molecule Activation Conference, Friday 20th – Monday 23rd May 2016 at the Fiesta Americana Condesa, Cancun, Mexico. Invited by Prof. Christian Limberg.

132. Do bases in the second coordination sphere aid CO2 reduction? Etsuko Fujita, Lele Duan, Gerald F. Manbeck, Marta Kowalczyk, David J. Szalda, Yuichiro Himeda and James T. Muckerman, Symposium on “Manipulation of Energy & Electron Transfer in Molecules and Devices”, The 252nd ACS National Meeting, Philadelphia, PA, Aug. 20-25, 2016, Invited by Prof. K. Hanson

133. Comments on draft of ICEF CO2 Utilization Roadmap, The Innovation for a Cool Earth Forum 2016 (ICEF2016), Tokyo, Japan, October 5-6, 2016, invited by Dr. Koji Moriya

134. Interconversion of CO2/H2 and Formic Acid: H2 Storage, ICEF2016, Tokyo, Japan, October 5-6, 2016, invited by Dr. Dr. Kohta Asano.

135. Overview of Research in the Artificial Photosynthesis Group at BNL, AIST Symposium, Oct. 7, 2016, AIST, Tsukuba, Japan, invited by Dr. Himeda.

136. Comments on draft of ICEF CO2 Utilization Roadmap, E. Fujita, The Innovation for a Cool Earth Forum 2016 (ICEF2016), Tokyo, Japan, October 5-6, 2016, invited by Dr. Koji Moriya.

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137. Interconversion of CO2/H2 and Formic Acid: H2 Storage, E. Fujita, The Innovation for a Cool Earth Forum 2016 (ICEF2016), Tokyo, Japan, October 5-6, 2016, invited by Dr. Kohta Asano.

138. Overview of Research in the Artificial Photosynthesis Group at BNL at the One-Day Meeting on Hydrogen Carriers, AIST, Tsukuba, Japan, Oct. 7, 2016., invited by Dr. Y. Himeda.

139. Hydricity, Electrochemistry, and Excited-State Chemistry of Ir Complexes for CO2 Reduction, G. F. Manbeck, K. Garg, T. Shimoda, D. J. Szalda, M. Z. Ertem, J. T. Muckerman and E. Fujita, Faraday Discussions on Artificial Photosynthesis:, Kyoto, Japan, February 28-March 2, 2017. Invited by Royal Society of Chemistry.

140. Artificial Photosynthesis for Photogeneration of Fuels, E. Fujita, J. J. Concepcion, M. Z. Ertem, D. C. Grills, G. F. Manbeck, J. T. Muckerman, D. E. Polyansky, K. Sasaki, and Y. Himeda, International Conference on Artificial Photosynthesis 2017, March 2-5, 2017, Kyoto, Japan, invited by Prof. H. Inoue.

141. Reversible interconversion of CO2/H2 and formic acid using Cp*Ir(III) complexes with proton responsive ligands, E. Fujita, J. T. Muckerman and Y. Himeda, Symposium on "Switchable catalysis and related processes" at the 253rd National ACS Meeting in San Francisco, April 2-6, 2017, Invited by Prof. Jeff Byers and Prof. Paula Diaconescu

142. Artificial Photosynthesis for Fuel Generation in Solution and at Interfaces. E. Fujita, J. J. Concepcion, M. Z. Ertem, D. C. Grills, G. F. Manbeck, J. T. Muckerman and D. E. Polyansky, The 39th Department of Energy Solar Photochemistry P.I. Meeting, June 5 – June 8, 2017, Gaithersburg, MD, invited by Dr. M. Spitler.

143. Reversible Conversion between CO2/H2 and Formic Acid by Molecular Catalysts, E. Fujita, The DOE Energy Efficiency and Renewable Energy’s Annual Merit Review, June 5-9, 2017, Washington, D.C., invited by Dr. C. Bradley.

144. CO2 Reduction by Trigonal Bipyramidal Polypyridyl Cobalt(II) Complexes: Nature of Co(I) and Co(0) Complexes upon Reactions with CO2 or CO, E. Fujita, T. Shimoda, K. Kodama, T. Hirose, D. E. Polyansky, G. F. Manbeck, and J. T. Muckerman, 2nd International Symposium on Solar Fuels, U.C. San Diego, CA, July 7, 2017.

145. Hydrogen Production and Storage, E. Fujita, G. F. Manbeck, J. T. Muckerman, K. Sasaki, and Y. Himeda, Keynone speaker at the 17th IUPAC International Symposium on MacroMolecular Complexes (MMC-17) at Waseda University, Tokyo on August 28-31, 2017, Waseda, Tokyo, Invited by Prof. H. Nishide.

146. Artificial Photosynthesis for Generation of Fuels using Ir Molecular Catalysts and Molybdenum or Tungsten Carbide-Nitride Composites prepared from Soybeans, E. Fujita, G. F. Manbeck, M. Z. Ertem, J. T. Muckerman, K. Sasaki, and Y. Himeda, The 8th Annual Global Congress of Catalysis-2017, Shanghai, China, October 20-22, 2017, invited by Prof. Xiaogan Mei

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147. Hydrogen Production and Storage, Etsuko Fujita, Gerald F. Manbeck, James T. Muckerman and Yuichiro Himeda, The Third Molecules and Materials for Artificial Photosynthesis Conference, Mar. 2-5, 2017 at the Fiesta Americana Condesa, Cancun, Mexico. Invited by Prof. Antoni Llobet and Prof. Jin Zhang.

148. Hydrogen Production and Storage, The 43rd International Conference on Coordination Chemistry, July 30-August 4, 2018, Sendai, Japan, Invited by Prof. Gary Brudvig

149. HydrogenPproduction and Storage, Post ICCC in Fukuoka, Kushu Unversity, Aug. 5-7, 2018, invited by Prof. Ken Sakai

150. Investigation of intramolecular electron transfer of Ru(II)-Ru(II) and Ru(II)-Re(I) supramolecular photocatalysts for CO2 reduction, The 256th ACS National Meeting & Exposition, August 19-23, 2018, Boston, MA, Invited by Prof. Jun Huang

151. CO2 Hydrogenation to Formate and Beyond, The 2nd BK-Plus International Symposium on Solar Cells and Solar Fuel (BKSC&SF)" which will be held on Sept 18 in 2018 at Korea University Sejong, Invited by Prof Sang-Wook Kang

152. CO2 Hydrogenation to Formate and Beyond, The 1st International Workshop on Solar Carbon Recycling, Sept. 19, Korea Research Institute of Chemical Technology, Daejeon, Korea, invited by Prof. Jin-Ook Baeg

153. Ernst Haage Symposium on Chemistry: Catalytic Conversion of CO2 at the Interface of Energy and Chemistry, Mulhein an der Ruhr, Nov. 12-13, 2018, Invited by Prof. Robert Schlogl and Prof. Tabius Ritter

Seminars Given Since 1991

1. Carbon Dioxide Activation by Metal Macrocycles, Women of Science Meeting, Brookhaven National Laboratory, Dec. 12, 1991

2. Carbon Dioxide Activation by Metal Macrocycle Complexes, Inorganic Seminar, Department of Chemistry, State University of New York at Stony Brook, Stony Brook, New York, Feb. 24, 1992

3. Binding of Carbon Dioxide to Metal Macrocycles: Toward a Mechanistic Understanding of Electrochemical and Photochemical Carbon Dioxide Reduction, Ochanomizu University, Tokyo, Japan, July 30, 1993

4. Binding of Carbon Dioxide to Metal Macrocycles: Toward a Mechanistic Understanding of Electrochemical and Photochemical Carbon Dioxide Reduction, Osaka University, Osaka, Japan, Aug. 2, 1993

5. Toward Photochemical Carbon Dioxide Activation by Transition Metal Complexes, Nara Women’s University, Nara, Japan, Aug. 3, 1993

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6. C-H bond and Carbon Dioxide Activation by Cobalt Macrocycles: Evidence of Hydrogen Bonding between Bound CO2 and the Macrocycle in Solution, Tsukuba University, Ibaraki, Japan, Aug. 5, 1993

7. Mechanism and Kinetics Studies of Cobalt Macrocycles in a Photochemical CO2 Reduction System, University of Maine, Orono, Maine, July 22, 1994

8. Photochemical CO2 Reduction with Nickel Bipyridine Complexes, Osaka University, Japan, Sept. 18, 1995

9. Life as a Woman Chemist in US, Osaka University, Osaka, Japan, Sept. 19, 1995

10. Photoreduction of CO2 with Metal Complexes, Osaka National Research Institute, Osaka, Japan, Sept. 20, 1995

11. Life as a Woman Chemist in US, Osaka National Research Institute, Osaka, Japan, Sept. 20, 1995

12. Carbon Dioxide Activation: Nature of Reduced Nickel Bipyridine Complexes, Kyushu University, Fukuoka, Japan, Sept. 21, 1995

13. Photoreduction of CO2 with Metal Complexes, Kumanoto University, Kumamoto, Japan, Sept. 22, 1995

14. Mechanism and Kinetics Studies of Cobalt Macrocycles in a Photochemical CO2 Reduction System, Tokyo Institute of Technology, Tokyo, Japan, Sept. 25, 1995

15. Photochemical Carbon Dioxide Reduction with Metal Complexes. Tohoku University, Sendai, Japan, Sept. 29, 1995

16. Properties of Metal Complexes for Environment Catalysts, Research Institute of Innovative Technology for the Earth, Oct. 3, 1995

17. Differences in Nickel and Cobalt Macrocycles as Catalysts in Carbon Dioxide Reduction, Osaka University, Japan, Nov. 11, 1996

18. Electrochemical and Photochemical Carbon Dioxide Reduction by Cobalt and Nickel Macrocycles, Kumamoto University, Japan, Nov. 14, 1996

19. Carbon Dioxide Reduction by Cobalt and Nickel Macrocycles, Toyama University, Nov. 18, 1996

20. Photochemical Carbon Dioxide Reduction, Institute for Molecular Science, Nov. 20, 1996

21. Photochemical Carbon Dioxide Reduction with Metal Complexes, Purdue University, July 14, 1997

22. Series of lectures at the National Institute of Materials and Chemical Research, Tsukuba, Japan, Jan. 6 – Mar. 20, 1998

23. Photochemical Carbon Dioxide Reduction with Metal Complexes, SUNY at Stony Brook, Feb. 10, 1998

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24. Photochemical Carbon Dioxide Reduction with Metal Complexes, National Renewable Energy Laboratory, Golden, CO, Dec. 10, 1998

25. Mechanistic and Kinetic Studies on Photochemical Carbon Dioxide Reduction with Metal Complexes, Ochanomizu University, Tokyo, Japan, Feb. 5, 1999

26. Mechanistic and Kinetic Studies on Photochemical Carbon Dioxide Reduction with Metal Complexes, Johannes-Gutenberg-University, Mainz, Germany, Sept. 12, 1999

27. Transient FTIR Study of Rhenium(I) Complexes in Photochemical CO2 Reduction, Seminar at Saitama University, Urawa, Japan, March 16, 2001

28. Photocatalytic CO2 Reduction: If Nature Can Do It, Why can’t We? E. Fujita, Chemistry Department Seminar, Brookhaven National Laboratory, June 19, 2002

29. Involvement of a Binuclear Species Containing the Re-C(O)O-Re Moiety in Photochemical CO2 Reduction by Rhenium(I) Complexes, Osaka University, Osaka, Japan, December 13, 2002 (Sponsor: Osaka University)

30. Involvement of a Binuclear Species Containing the Re-C(O)O-Re Moiety in Photochemical CO2 Reduction by Rhenium(I) Complexes Tokyo Institute of Technology, Tokyo, Japan, January 7, 2003 (Sponsor: Tokyo Institute of Technology)

31. Photocatalytic CO2 Reduction: If Nature Can Do It, Why Can't We? Ochanomizu University, Tokyo, Japan, January 7, 2003 (Sponsor: Ochanomizu University)

32. Photocatalytic CO2 Reduction: If Nature Can Do It, Why Can't We? Osaka University, Osaka, Japan, January 14, 2003 (Sponsor: Osaka University)

33. What Have We Learned about Photochemical CO2 Reduction Using Metal Complexes? Nara Women’s University, Nara, Japan, January 21, 2003 (Sponsor: Nara Women’s University)

34. Photocatalytic CO2 Reduction: If Nature Can Do It, Why Can't We? Tohoku University, Sendai, Japan, January 28, 2003 (Sponsor: Tohoku University)

35. Why is Re-Re Bond Formation/Cleavage of [Re(bpy)(CO)3]2 Different from that of [Re(CO)5]2? Experimental and Theoretical Studies on the Dimers and Fragments. Part I and II, Etsuko Fujita and James T. Muckerman, Chemistry Department, Friday Seminar, June 27, 2003

36. What Have We Learned from Photocatalytic CO2 Reduction with Cobalt and Rhenium Complexes? Tulane University, November 17, 2003

37. Photoinduced Chemical Reactions of Metal Complexes: M-M Bond Formation/Cleavage and Small Molecule Activation, Tokyo Institute of Technology, Tokyo, Japan, September 20, 2004

38. What Have We Learned from Photocatalytic CO2 Reduction with Metal Complexes, Kyushu University, Fukuoka, Japan, September 22, 2004

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39. Photoinduced Chemical Reactions of Metal Complexes: Small Molecule Activation and M-M Bond Formation/Cleavage", March 9-10, 2005, Ochanomizu University, Otsuka, Tokyo, Japan

40. Photocatalytic CO2 Reduction: If Nature Can do it, Why Can't We? Seminar to be given at Queen College, CUNY, Nov. 21, 2005

41. Toward Photochemical CO2 reduction and Water Splitting: If Nature Can Do It, Why Can’t We? E. Fujita, Pacific Northwest National Laboratory, Richland, WA, Aug. 17, 2006

42. Toward Photochemical Water Oxidation with Polypyridylruthenium Complexes as Catalysts, E. Fujita, Institute for Molecular Science, Okazaki, Japan, Nov. 21, 2006

43. Solar Energy Utilization: Toward Photochemical Water Splitting using Band-Gap-Narrowed Semiconductors, E. Fujita, Toyota Central Research and Development Labs, Inc., Nagakute-cho, Aichi-gun, Aichi, Japan, Nov. 24, 2006

44. Toward Photochemical Water Oxidation with Band-Gap-Narrowed Semiconductors and Polypyridylruthenium Complexes as Catalysts, E. Fujita, California Institute of Technology, Jan. 29, 2007

45. Photocatalytic CO2 Reduction: If Nature Can Do It, Why Can't We? E. Fujita, The University of Nottingham, UK, March 16, 2007

46. Photochemistry Research at BNL, Caltech, Feb. 2, 2008

47. Artificial Photosynthesis: Light Absorption, Charge Separation, Water Oxidation, and CO2 Reduction, Tulane University, Feb. 18, 2008

48. Artificial Photosynthesis: Light Absorption, Charge Separation, Water Oxidation, and CO2 Reduction, Seminar at Bowling Green State University, Nov. 5, 2008

49. Water Oxidation by Ruthenium Complexes with Non-Innocent Quinone Ligands, University of Wisconsin, Madison, WI, Nov. 11, 2008

50. Photocatalytic CO2 Reduction: If nature can Do It, Why Can’t We? University of Wisconsin, Madison, WI, Nov. 12, 2008

51. Photochemical CO2 Reduction: Current Status and Challenges, E. Fujita, Kumamoto Symposium on Design and Applications of Advanced Molecular Materials - Strategies for Novel Energy Conversion by Coordination Compounds-, Kumamoto University, Japan, December 2, 2008

52. Artificial Photosynthesis: Light Absorption, Charge Separation, Water Oxidation, and CO2 Reduction, BNL Office of Educational Programs. For the NYS collegiate Science and Technology Entry Program for minority and economically disadvantaged students, Jan 7, 2009

53. Photochemical CO2 Reduction: A Daunting Challenge, Seminar at the 2008-2009 Harvard-MIT Seminar Series, Feb. 11, 2009.

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54. Photocatalytic CO2 Reduction: If Nature Can Do It, Why Can’t We?, International Conference with Women Chemists, Nagoya Institute of Technology, Nagoya, Japan, Dec. 11, 2009.

55. Photochemical CO2 Reduction: Current Status and Future Prospects, Seminar at University of New Hampshire, Nov. 12, 2009.

56. Photochemical CO2 Reduction using Transition Metal Complexes: Current Status and Future Prospects, E. Fujita, The Pennergy Colloquium Series, The Penn Center for Energy Innovation, The University of Pennsylvania, April 22-23, 2010.

57. A series of lectures on Solar Fuel Generation using Inorganic Compounds, Department of Chemistry, Ochanomizu University, Tokyo, September 26-October 2, 2010.

58. Photochemical CO2 Reduction: Current Status and Future Prospects, Rensselaer Polytechnic Institute, April 5, 2011.

59. Photochemical CO2 Reduction: Current Status and Future Prospects, Laboratoire de Chimie et Biologie des Métaux (CEA-CNRS-Université J. Fourier), CEA-Grenoble, July 4, 2011.

60. Photochemical CO2 Reduction: Current Status and Future Prospects, Purdue University, Oct. 27, 2011, invited by Prof. Tong Ren.

61. Photochemical CO2 Reduction: Current Status and Future Prospects, Indiana University, Oct. 28, 2011, invited by Prof. Dongwhan Lee.

62. Photochemical CO2 Reduction: Current Status and Future Prospects, Seminar at the University of Memphis, Memphis, Oct. 26, 2012, Invited by Prof. Xuan Zhao

63. Four lectures on artificial photosynthesis in “World Class University Program on Photovoltaic Materials”, Korea University, Seoul, Korea, Oct. 30-Nov. 4, 2012, invited by Prof. Sang Ook Kang (1) Photochemical CO2 Reduction: If Nature Can Do It, Why Can't We? (2) Water Oxidation Using Ru Mononuclear Complexes Having Pendent Bases (3) Reversible CO2 Hydrogenation at Mild Conditions: Formic Acid for H2 Storage and (4) Thermodynamics and Kinetics of CO2, CO and H+ Binding to the Metal Center of CO2 Reduction Catalysts

64. Photochemical CO2 Reduction: Current Status and Future Prospects, Seminar at Stanford University, The 2012-2013 Student Hosted Colloquia (SHC) series, “, Nov. 29, 2012

65. Photochemical CO2 Reduction: Current Status and Future Prospects, Seminar in the Joint Center for Artificial Photosynthesis, JCAP North, Lawrence Berkeley National Laboratory, Nov. 30, 2012, invited by Dr. Heinz Frei

66. Photochemical CO2 Reduction: Current Status and Future Prospects, Inorganic Chemistry Seminar at Univ. Delaware, Sept. 18, 2013, Invited by Prof. Joel Rosenthal.

67. Artificial Photosynthesis for Fuel Generation and Water Oxidation, 2013-2014 MSE Colloquium Series, Boston University, Sept. 20, 2013, Invited by Prof. Linda Doerrer and Dr. Laleh Tahsini.

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68. From CO2 hydrogenation by solar-produced H2 to photochemical water oxidation, Seminar at Arizona State University, Oct. 9-10, 2013, Invited by Prof. Tom Moore.

69. From CO2 hydrogenation by solar produced H2 to photochemical water oxidation, Seminar at Utah State University, April 23, 2014, invited by Prof. Yujie Sun.

70. From CO2 hydrogenation by solar produced H2 to photochemical water oxidation The 2014 Vaughan Symposium at the University of Michigan. Invited by Kim Daley, July 30, 2014.

71. From CO2 hydrogenation by solar produced H2 to photochemical water oxidation, Seminar at the Tokyo Institute of Technology, Tokyo, Japan, August 25, 2014, Invited by Prof. Osamu Ishitani.

72. From CO2 hydrogenation by solar produced H2 to photochemical water oxidation, Seminar at U. Connecticut, Sept. 24, 2014, Invited by Prof. Alfredo Angeles-Boza,

73. From CO2 hydrogenation by solar-produced H2 to photochemical water oxidation, Etsuko Fujita, AIST Osaka Center, Dec. 1, 2014. Invited by Dr. Qiang Xu.

74. From CO2 hydrogenation by solar-produced H2 to photochemical water oxidation, Seminar at Kumamoto University, Feb. 23 and 24, 2015, Invited by Prof. Yutaka Kuwahara.

75. Artificial Photosynthesis for Generation of Fuels using Molecular Catalysts and Metal Carbide-Nitride Composites, Seminar at Saitama University, June 26, 2015. Invited by Prof. Takushi Hirose.

76. Artificial Photosynthesis for Generation of Fuels using Molecular Catalysts and Metal Carbide-Nitride Composites, Seminar at Marquette University, Oct.9, 2015, Invited by Prof. Jier Huang.

77. Artificial Photosynthesis for Generation of Fuels using Molecular Catalysts and Metal Carbide-Nitride Composites, Seminar at University of Florida, Oct 26, 2015 invited by Prof. Leslie Justin Murray.

78. Artificial Photosynthesis for Generation of Fuels using Molecular Catalysts and Metal Carbide-Nitride Composites, Seminar at Florida State University, Oct 27, 2015, invited by Prof. Mike Shatruk.

79. Artificial Photosynthesis, Seminar at Saitama University, January 6, 2016. Invited by Prof. Takuji Hirose

80. Artificial Photosynthesis for Generation of Fuels using Molecular Catalysts and Metal Carbide-Nitride Composites, Seminar, September 26, 2016, U. Southern California, Invited by Prof. S. Marinescu

81. Artificial Photosynthesis for Generation of Fuels: Investigation of Several Unusual Mechanisms” E. Fujita, Korea University, May 8, 2017, invited by Prof. Sang Wook Kang.

82. CO2 Hydrogenation and Formic Acid Dehydrogenation: Sustainable H2 Storage, E. Fujita, Korea University, May 9, 2017, invited by Prof. Sang Wook Kang

83. Artificial Photosynthesis for Generation of Fuels, E. Fujita, University of Science

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and Technology, Shenzhen, Oct. 24, 2017, invited by Prof. Lele Duan (scheduled).

84. Hydrogen Production and Storage, International National Research Organization, Kumamoto Univ., Dec. 3-5, 2017, Invited by Prof. Shinji Harada