濵口教授業績リスト - 招待講演

• 国際会議
• 2010-
• 2000-
• 1990-
• 国内会議等
• 2006-
• 2000-
• 1990-

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国際会議

1. Deca-second Mitochondria Dynamics of Living Yeast Cells as Studied by Time- and Space-resolved Raman Spectroscopy,M. Kato, C. Onogi, H. Hamaguchi, The 22^nd International Conference on Raman Spectroscopy, Boston (2010.8).
2. Recent Developments in Space-resolved Raman Spectroscopy at Tokyo: Single Molecules, Nano-structures and Single Living Cells, Hiro-o Hamaguchi, Gordon Research Conference on Vibrational Spectroscopy, Bidderford, USA (2010.8)
3. Raman and CARS: Which wins in microspectroscopy of living cells?, Hiro-o Hamaguchi, European Conference on Non-linear Optics and Spectroscopy, Bremen (2010.6)
4. What Are Local Structures and Micro Molecular Environments in Ionic Liquids?, Hiro-o Hamaguchi, ACS Symposium, San Francisco (2010.3).
5. Raman Spectroscopic View of Life, Hiro-o Hamaguchi, Indian Academy of Science Platinum Jubilee Meeting, Bangalore (2009.11).
6. Living Cell Chemistry: Looking at Life with Chemical Eyes, Hiro-o Hamaguchi, Topical Problems in Biophotonics 2009, Nizhny Novgorod (2009.7).
7. Nanoscopic Structure of Ionic Liquids, Hiro-o Hamaguchi, 3^rd International Congress on Ionic Liquids, Cairns (2009.6).
8. Toward Single Molecule and Single Cell Time-resolved Vibrational Spectroscopy,Hiro-o Hamaguchi, 14^th International Conference on Time-resolved Vibrational Spectroscopy, Meredith NH, USA (2009.5).
9. Can Raman Spectroscopy Image Life?, Hiro-o Hamaguchi, 9^th National Institute for Basic Biology Symposium, Okazaki (2009.4).
10. Can Raman Spectroscopy Measure and Quantify Life?,Hiro-o Hamaguchi, Physics of Qunatum Electronics Conference 2009, Snowbird (2009.1).
11. Raman Spectroscopy and Molecular Imaging of Living Cells. Hiro-o Hamaguchi, The 14th European Congress on Molecular Spectroscopy, Opatija, Croatia (2008.9).
12. New possibilities of Raman spectroscopy: Detection of ensembles of single molecules and probing the viability of single living cells. Hiro-o Hamaguchi, The 21^st International Conference on Raman Spectroscopy, London, UK (2008.8).
13. Molecular Near-field Effect in Resonance Hyper-Raman Scattering and Detection of Ensembles of Single Molecules. Hiro-o Hamaguchi, The 17^th International Workshop on Laser Physics, Trondheim, Norway (2008.7).
14. Liner and Non-Linear Raman Molecular Imaging of Living Cells. Hiro-o Hamaguchi, The 1^st European Conference on CARS microscopy, Igls, Austria (2008.5).
15. Raman Spectroscopy: Its Width and Depth. Hiro-o Hamaguchi, The 3^rd International SAOT-Workshop, Erlangen, Germany (2008.5). The “Raman Spectroscopic Signature of Life” And Viability Imaging of Single Living cells. Hiro-o Hamaguchi, Focus on Microscopy, Awajishima (2008.4).
16. Recent Advances in Raman Spectroscopy: From a Molecule to a Living Cell. Hiro-o Hamaguchi, Trombay Symposium on Radiation & Photochemsitry, Pune, India (2008.1).
17. Frontiers of Raman Spectroscopy:　From a Molecule to a Living cell. Hiro-o Hamaguchi, International Symposium at the Annual Meeting of the Spectroscopical Society of Japan,　Tokyo (2007.11).
18. Living Cell Molecular Science: A New Frontier. Hiro-o Hamaguchi, Okazaki Conference“Molecular Science and Chemical Biology of Biomolecular Function”,　Okazaki (2007.11).
19. Raman Spectroscopic Signature of Life and Cell Death at the Molecular Level. Hiro-o Hamaguchi, The 2nd International Workshop on Approaches to Single-Cell Analysis, Tokyo (2007.9).
20. Linear and Non-linear Raman Spectroscopy and Imaging of Living Cells: Life and Death at the Cellular Level. Hiro-o Hamaguchi, Conference on Lasers and Electro-Optics Pacific Rim, Seoul, Korea (2007.8).
21. Raman Spectroscopy Uncovers New Extra Ordinary Prorerties of Ionic Liquids. Hiro-o Hamaguchi, International Symposium on the Structure and Dynamics of Ionic Liquid, Chiba (2007.8).
22. Raman Spectroscpy: Its Width and Depth. Hiro-o Hamaguchi, 2007 MIT/Texas A&M Universuty Summer Workshops, Casper, USA (2007.7).
23. Raman Spectroscopic Signature of Life And Cell Death at the Molecular Level. Hiro-o Hamaguchi, 1�]th International Conference on Laser Applications in Life Sciences, Moscow, Russia (2007.6).
24. Raman Spectroscopy: Its Width and Depth. Hiro-o Hamaguchi, 1^st Asian Spectroscopy Conference, Bangalore, India (2007.1).
25. "Raman Spectroscopic Signature of Life" and Spontaneous Cell Death at the Molecular Level. Yu-San Huang and Hiro-o Hamaguchi, American Chemical Society North-East Regional Meeting, Binghamton NY, USA (2006.10).
26. In Vivo Molecular Imaging of Life and Death of Single Living Cells by Linear and Non-linear Raman Spectroscopy. Hiro-o Hamaguchi, Indo-Japan Seminar, Kobe (2006.9).
27. Are There Well-Defined Local Structures in Ionic Liquids? Hiro-o Hamaguchi, 232nd American Chemical Society National Meeting, San Francisco (2006.9).
28. Near-infrared Excited Raman Spectroscopy and Its Biomedical Applications. Hiro-o Hamaguchi, New Horizon of Medical Applications of Spectroscopy: A Satellite Meeting of the 20^th Internatioal Conference on Raman Spectroscopy, Tokyo (2006.8).
29. Linear- and Non-linear Raman Microspectroscopy and Imaging of Single Living Cells: Visualization of Life and Death at the Cellilar Level. Hiro-o Hamaguchi, The 3^rd International Nanophotonics Symposium, Osaka (2006.7).
30. Looking at Molecules with Stopped Motion: From femtosecond to kilosecond. Hiro-o Hamaguchi, Indian Institute of Science CULA Inaugural Symposium, Bangalore, India (2006.4).
31. Time- and Space-resolved Raman Spectroscopy: From Ultrafast Molecular Dynamics to Growth/Death of Living Cells. Hiro-o Hamaguchi, Pittcon 2006, Orlando, USA (2006.3).
32. Bioactivities and Molecular Imaging of a Single Living Yeast Cell by Time- and Space-resolved Raman Spectroscopy. Hiro-o Hamaguchi, Nanomedichine 1, Okazaki (2006.2).
33. Photophysics and Photochemistry in Ionic Liquids. Hiro-o Hamaguchi, Tronbay Symposium on radiation and Photochemistry 2006, Mumbai, India (2006.1).
34. Photoisomerization of Retinal: A Global View. Hiro-o Hamaguchi, Pacifichem2005, Hawaii (2005.12).
35. Structure, Transformation and Bioactivity of Living Yeast Cells Studied by Time- and Space-resolved Raman Spectroscopy. Hiro-o Hamaguchi, Frontier of Molecular Nanotechnology, Nara (2005.11)
36. Time- and Space-resolved Raman Spectroscopy - from a molecule through an ionic liquid to a living cell -. Hiro-o Hamaguchi, 13th Natinoal Chinese Light Scattering Conference, Shanghai, China (2005.10).
37. Amazing Vibrational Spectroscopy. Hiro-o Hamaguchi, FACSS 2005, Quebec City, Canada (2005.10).
38. "Solvent Induced Dynamic Polarization" and Ultrafast Photochemical Dynamics in Solution. Hiro-o Hamaguchi, Asian Chemistry Congress 2005, Seoul, Korea (2005.8).
39. Molecular-level Pursuit of the Cell Death of Budding Yeast by Time-resolved Raman Imaging. Hiro-o Hamaguchi, The 10^th Keihanna Conference on Molecular Biophysics, Nara (2005.8).
40. Spontaneous and Non-linear Raman Spectroscopy and Imaging of Living Yeast Cells. Hiro-o Hamaguchi, ICMAT2005, Singapore (2005.6).
41. From Time-resolved Raman spectroscopy to Time- and Space-resolved Raman Spectroscopy. Hiro-o Hamaguchi, 12th Time-resolved Vibrational Spectroscopy Conference, Washington DC, USA (2005.6).
42. Discovery of a New Magnetic Fluid: Bmim[FeCl₄] Ionic Liquid. Hiro-o Hamaguchi, Intermag2005, Nagoya (2005.4)
43. Dynamic Infrared Spectroscopies with the AC-coupled Dispersive Method: Nanosecond Time-resolved Infrared Spectroscopy and Infrared Electroabsorption Spectroscopy. Hiro-o Hamaguchi, Pittcon 2005, Orlando, USA (2005.3).
44. Molecular-level Pursuit of Dynamical Processes in Single Living Yeast Cells by Time- and Space-resolved Raman Spectroscopy. Hiro-o Hamaguchi, Symposium on Molecule-Based Information Transmission and Reception-Application of membrane protein biofunction, Okazaki (2005.3).
45. Time- and Space-resolved Raman Spectroscopy of Living Yeast Cells. Hiro-o Hamaguchi, DMAS2005, Bangalore, India (2005.2).
46. Time- and Space-resolved Raman Spectroscopy: From a Molecule to a Living Cell. Hiro-o Hamaguchi, The 19^th InternationalConference on Raman Spectroscopy, Gold Coast, Australia (2004.8).
47. Vibrational Spectroscopy Elucidates Dynamic Structures of Complex Molecular Systems: Solution, Ionic Liquid, Living Cell．Hiro-o Hamaguchi, Molecular Ensemble 2003, Wako (2003.12)
48. Near-infrared Multichannel Raman Spectroscopy: A key technology toward real-time in-vivo non-invasive cancer diagnosis. Hiro-o Hamaguchi, ICBB 2003, Beijing (2003.10).
49. X-ray and Raman Spectroscopic Studies of the Structure of [bmim]X, where X=Cl, Br, I and BF₄. H. Hamaguchi, R. Ozawa, S. Hayashi and S. Saha, American Chemical Society, Annual Meeting, NY (2003.9).
50. Time-resolved Raman Spectroscopy: From Femtosecond Photoisomerization of Retinal to Kilosecond Cell Cycle of a Living Yeast Cell. Hiro-o Hamaguchi, The 2^nd international Conference on Advanced Vibrational Spectroscopy, Nottingham, UK (2003.8).
51. In-vivo Time- and Space-resolved Raman Spectroscopy of a Living Yeast Cell. Y.-S. Huang, T. Karashima, M. Yamamoto and H. Hamaguchi, Microscopy and Microanalysis 2003, San Antonio (2003.8).
52. Time- and Space-resolved Vibrational Spectroscopy: From a Molecule to a Living Cell. Hiro-o Hamaguchi, The 21^st International Congress on Photochemistry, Nara (2003.7).
53. Time- and Space-resolved Raman Spectroscopy of a Living Yeast Cell. Hiro-o Hamaguchi, Indo/Japan Symposium on Structure and Dynamics of Complex Molecular Systems: From a Molecule to a Living Cell, Tokyo (2003.1).
54. Mechanism of stepwise double proton-transfer reaction between 2-aminopyroidine and acetic acid. K. Iwata, H. Ishikawa, and Hiro-o Hamaguchi, IX International Conference on Laser Applications in Life Sciences, Vilnius, Lithuania (2002.7).
55. Recent developments in biochemical and biomedical applications of Raman spectroscopy. Hiro-o Hamaguchi, The 6th International Conference on Laser Applications in Life Sciences, Vilnius, Lithuania (2002.7).
56. Ultrafast Spectroscopic Investigation of the Retinal Photoisomerization. Hiro-o Hamaguchi, Lecture series in three Taiwanese universities, Taiwan (2002.6).
57. Picosecond Dynamics of Photoinduced Stepwise Double Proton Transfer Reaction in the 2-Amiopyridine/Acetic Acid System. Hironori Ishikawa, Koichi Iwata and Hiro-o Hamaguchi, The 3rd Asian Photochemistry Conference, India (2002.1).
58. Significance of the solvent-induced dynamic polarization in solution-state chemistry: Experiment and theory. Hiro-o Hamaguchi, Structure and Dynamics in Complex Chemical Systems, India (2001.1).
59. Solvent-induced Dynamic Polarization, Vibrational Dephasing, Vibrational Band Width, and Chemical Reaction Rates of Reactive Intermediates. Hiro-o Hamaguchi, Pacifichem 2000, Hawaii (2000.12).
60. Is a Picosecond Chemical Reaction Diffusion-Controlled? Koichi Iwata and Hiro-o Hamaguchi, The 11th Seoul National University and the University of Tokyo Chemistry Symposium, Tokyo, Japan (2000.11).
61. Fluorescence Rejection; A Key to Ultimate Raman Spectroscopy. Hiro-o Hamaguchi, 8th International Conference on Laser Application in Life Sciences, Tokyo, Japan (2000.8).
62. Photoinduced Cl Transfer Reactions between Four Aromatic Molecules and Carbon Tetrachloride Studied by Nanosecond Time-resolved Infrared Spectroscopy and Picosecond Time-resolved Fluorescence Spectroscopy. Koichi Iwata, Hiro-o Hamaguchi, and Hiroaki Takahashi, 8th International Conference on Laser Application in Life Sciences, Tokyo, Japan (2000.8).
63. Ultrafast photophysics and photochemistry of retinal in solution: a newly established photoisomerization pathway through the second excited singlet state. Hiro-o Hamaguchi, Trombay Symposium on Radiation and Photochemistry, India (2000.1).
64. How New Time-resolved Spectroscopies Advanced Our Understanding of the Retinal Photoisomerization. H. Hamaguchi, 9th International Conference on Time-Resolved Vibrational Spectroscopy, Tucson, U.S.A. (1999.5).
65. Time- and Polarization-Resolved Multiplex Coherent Anti-Stokes Raman Spectroscopy. H. Hamaguchi, The 16th International Conference on Raman Spectroscopy, Cape Town, South Africa (1998.9).
66. New vibrational spectroscopy to probe liquid structure. H. Hamaguchi, Gordon Research Conferences on Vibrational Spectroscopy and Molecular Dynamics, Plymouth, U.S.A. (1998.7).
67. Recent Developments in Ultrafast Time-Resolved Spectroscopy of Electronically Excited States. H. Hamaguchi, The Jablonski Centennial Conference on Luminescence and Photophysics, Torun, Poland (1998.7).
68. Ultrafast Photodissociation and Reassociation Dynamics of p-nitroaniline/acetonitrile Solvated Structures by Time-Resolved Absorption and Raman Spectroscopy. H. Hamaguchi, The Discussion Meeting on Ultrafast Chemical Phenomena, Bangalore, India (1998.3).
69. Nanosecond Time-Resolved Dispersive Infrared Spectroscopy and Its Chemical Applications. H. Hamaguchi, The 24th Annual Conference of the Federation of Analytical Chemistry and Spectroscopy Societies, Providence, U.S.A. (1997.10).
70. Structure and Dynamics of Short-lived Active Molecules as Studied by New Ultrafast Time-Resolved Spectroscopies. H. Hamaguchi, The 7th Chemistry Symposium between University of Tokyo and Seoul National University, Seoul, Korea (1997.5).
71. Two Distinct Solvated Structures of para-Nitroaniline in Acetonitrile and Their Dissociation and Recombination Dynamics. H. Hamaguchi, The 8^th International Conference of Time-Resolved Vibrational Spectroscopy, Oxford, U.K. (1997.4).
72. Dynamic Structure of Photoexcited Molucules: The Outcome of Pico/Nanosecond Time-resolved Raman Studies in the Past Five Years. H. Hamaguchi, The 15th International Conference on Raman Spectroscopy, Pittsburgh, U.S.A. (1996.8).
73. Ultrafast Time-resolved Vibrational Spectroscopy of Electronically Excited States. H. Hamaguchi, The International Symposium of Materials and Measurements in Molecular Electronics (M3E'96), Tsukuba, Japan (1996.2).
74. Femtosecond Vibrational Dephasing and Dynamic Polarization of Electronically Excited Molecules. H. Hamaguchi, The International Workshop on Femtosecond Technology (FST '96), Tsukuba, Japan (1996.2).
75. Dynamic Structure of Photoexcited Molecules as Revealed by Vibrational Band-shape Analysis. H. Hamaguchi, Pacifichem'95, Hawaii , U.S.A. (1995.12).
76. New Time-resolved Spectroscopies Developed at KAST. H. Hamaguchi, The International Symposium New Developments in Ultrafast Time-Resolved Vibrational Spectroscopy, Tokyo, Japan (1995.12).
77. Excess Energy Dissipation Process from Photoexcited Solute Molecule Monitored with Picosecond Time-Resolved Raman Spectroscopy. K. Iwata and H. Hamaguchi, The International Symposium New Developments in Ultrafast Time-Resolved Vibrational Spectroscopy, Tokyo, Japan (1995.12).
78. Picosecond Time-resolved 2D-CARS Spectroscopy: Development and Application. T. Tahara and H. Hamaguchi, The International Symposium New Developments in Ultrafast Time-Resolved Vibrational Spectroscopy, Tokyo, Japan (1995.12).
79. Nanosecond Time-resolved Infrared Spectroscoic Study of the TICT Excited State of N,N-Dymethyl-4-aminobenzonitrile. M. Hashimoto and H. Hamaguchi, The 16Ith International Conference on Photochemistry, London, U.K. (1995.8).
80. Time-resolved Vibrational Spectroscopy has Brought about a New Idia in Photochemistry: The Exchange Polarization Model of Photoisomerization. H. Hamaguchi, The 16Ith International Conference on Photochemistry, London, U.K. (1995.8).
81. Picosecond Time-resolved Two-dimensional Multiplex CARS Spectroscopy by Using a Streak Camera. T. Tahara and H. Hamaguchi, The 14th International Conference on Raman Spectroscopy, Hong Kong (1994.8).
82. Time-resolved Raman and CARS Study of the Isomerization Dynamics of Retinal in the Excited Triplet Manifold. H. Hamaguchi and T. Tahara, The14th International Conference on Raman Spectroscopy, Hong Kong (1994.8).
83. New Time-resolved Vibrational Spectroscopy for Life Science. H. Hamaguchi, 5th International Conference on Laser Applications in Life Sciences, Minsk, Belarus (1994.6).
84. Picosecond Time-resolved Raman Observation of the Mode-dependent Vibrational Dynamics in S₁ Trans-stilbene. K. Iwata and H. Hamaguchi, The 6th International Conference on Time-Resolved Vibrational Spectroscopy, Berlin, Germany (1993.5).
85. Picosecond Time-resolved Raman/Coherent Raman Spectroscopy by Using "Pico Pump and Quasi-cw Probe" Method with a Streak Camera. T. Tahara and H. Hamaguchi, The 51th International Conference on Time-Resolved Vibrational Spectroscopy, Berlin, Germany (1993.5).
86. Submicrosecond Time-resolved Infrared Study of the Electric-field-induced Reorientation of Nematic Liquid Crystals. T. I. Urano, C. Kato and H. Hamaguchi, The International Symposium on Advanced Infrared Spectroscopy, Tokyo, Japan (1993.3).
87. How Fast Can Raman Spectroscopy Go? H. Hamaguchi, The Pittsburgh Conference '93, Atlanta, U.S.A. (1993.3).
88. Fun with Excited States. H. Hamaguchi, Pittsburgh Conference Lectures, University of Pittsburgh, U.S.A. (1993.2).
89. Dynamical Processes in Photoexcited Molecules as Revealed by Picosecond Time-resolved Raman Spectroscopy. H. Hamaguchi, The 5th Japan-Korea Joint Symposium, Okazaki, Japan (1993.1).
90. Transform-limited Time-resolved Raman Spectroscopy. H. Hamaguchi, The 13Ith International Conference on Raman Spectroscopy, Wurzburg, Germany (1992.9).
91. Recent Developments in Time-resolved Raman Spectroscopy. H. Hamaguchi, The 6th National Conference on Light Scattering, Huang Shan, China (1991.10).
92. Raman Band Shapes and Vibrationlal Dynamics of Electronically Excited Molecule in Solution. H. Hamaguchi, The 5th International Conference on Time-Resolved Vibrational Spectroscopy, Tokyo, Japan (1991.6).
93. Feasibility of Luminescence-eliminated Anti-Stokes Raman Spectroscopy. H. Hamaguchi and T. Ishibashi, 3rd International Conference on Laser Applications in Life Sciences, Moscow, USSR (1990.8).
94. Photochemical Applications of Time-resolved Infrared Spectroscopy. H. Hamaguchi, The 4th International Conference on Time-Resolved Vibrational Spectroscopy, Princeton, U.S.A. (1989.6).
95. Some New Aspects of Transient and Time-resolved Raman Spectroscopy. H. Hamaguchi, The 11th International Conference on Raman Spectroscopy, London, U.K. (1988.9).
96. Vibrational Analyses of Trans-stilbene in the Ground (S₀) and First Excited Singlet (S₁) States. M. Tasumi, T. Urano, and H. Hamaguchi, The JSPS/NSF Symposium on Time-Resolved Vibrational Spectroscopy, Hawaii, U.S.A. (1985.11).
97. Optical Depletion Timing: A Method to Enhance the Selectivity of Transient Raman Spectroscopy. H. Hamaguchi, The JSPS/NSF Symposium on Time-Resolved Vibrational Spectroscopy, Hawaii, U.S.A. (1985.11).
98. Application of Time-resolved Resonance Raman Spectroscopy to Some Organic Photochemical Processes in Solution. H. Hamaguchi, The 2nd International Conference on Time-Resolved Vibrational Spectroscopy, Bayreuth, Germany (1985.6).

国内会議等

1. 線型および非線型ラマン顕微分光による酵母生細胞の分子イメージング．濵口宏夫, 2006 応用物理学会シンポジウム，京都 (2006.8)
2. 「生命のラマン分光指標」と分子レベルでの細胞死．濵口宏夫, 2006 生体分子科学討論会，名古屋 (2006.7)
3. イオン液体のナノ構造とナノ環境．濵口宏夫, 第４回ナノ学会，京都 (2006.6)
4. ラマン分光による単一酵母生細胞の分子レベル分光と生物活性の可視化．酵母合同シンポジウム，甲府 (2006.6)
5. 新しい振動分光学的手法の開発と応用．濵口宏夫, 日本分光学会春季講演会，東京 (2006.5)
6. 時空間分解振動分光学-反応中間体から生細胞まで-．濵口宏夫, JCII講演会，東京 (2006.5)
7. Time- and Space-resolved Raman Spectroscopy: From a Molecule to a Living Cell．濵口宏夫, 東京大学大学院理学系研究科付属スペクトル化学研究センターシンポジウム，東京 (2005.12)
8. 見えなかったものを見る振動分光学．濵口宏夫, 富士写真フィルム講演会，東京 (2005.11)
9. 分子と生命をつなぐ分光学．濵口宏夫, 東京大学大学院理学系研究科・理学部第８回公開講演会，東京 (2005.11)
10. 未踏材料「磁性イオン液体」. 濵口宏夫, 未踏科学技術研究会講演会，東京 (2005.11)
11. 時空間分解ラマン分光による酵母生細胞の分子イメージングと生命活性の可視化. 濵口宏夫, 早稲田大学COE国際シンポジウム，東京 (2005.11)
12. Molecular-level Investigation of Living Cells by Time- and Space-resolved Raman Spectroscopy. 濵口宏夫, 第３回 医用分光学研究会，学振１５１委員会，東京 (2005.7)
13. 時空間分解ラマン分光とプロテオミクス. 濵口宏夫, 第３回医用分光学研究会，浜松 (2005.7)
14. 振動分光学の最近の進歩：分子から生細胞まで. 濵口宏夫, 日本化学会関東支部講演会，桐生 (2005.6)
15. Wonder and Fun with Ionic Liquids. 濵口宏夫, 分子科学研究会，岡崎 (2005.6)
16. A Magnetic Ionic Liquid Bmim[FeCl₄]: Structure and Functions. 濵口宏夫, 高分子同友会講演会，東京 (2005.4)
17. ラマン散乱による生体分子イメージング. 濵口宏夫, 分子バイオイメージング，東京 (2005.4)
18. 時空間における分子振動計測の極限化：分子から細胞まで物質組織化機構の解明に向けて. 濵口宏夫, 特定領域研究「極微構造反応」第２回公開シンポジウム，大阪，(2005.2)
19. Biomolecular Imaging by Linear and Non-linear Raman Scattering. 濵口宏夫, 分子科学研究所研究会，岡崎，(2005.1)
20. 磁性イオン液体の発見. 濵口宏夫, 磁性流体連合講演会，東京，(2004.12)
21. 振動スペクトルから何がわかるか. 濵口宏夫, 日本分光学会赤外ラマン研究部会講習会，東京，(2004.11)
22. ２１世紀のラマン分光学：その奥行きと広がり. 濵口宏夫, 日本分光学会秋季講演会，仙台，(2004.11)
23. 時間分解振動分光が明らかにした短寿命光化学反応中間体の構造とダイナミクス. 濵口宏夫, 光化学討論会特別講演，つくば，(2004.11)
24. Ultimate Time- and Space-resolvedVibrational Spectroscopy: From a Molecule to a Living Cell. 濵口宏夫, 日本分光学会北海道支部講演会，札幌，(2004.8)
25. 展望：生命は測れるか？定量化できるか？ 濵口宏夫, ダイナミック分子分光セミナー，浜松 (2004.7)
26. "Raman Spectroscopic Signature of Life" and In Vivo Mapping of Mitochondrial Metabolic Activity in a Living Yeast Cell. 濵口宏夫, レーザー顕微鏡研究会，理研，和光 (2004.6)
27. Mitochondrial Metabolic Activity in a Living Yeast Cell and the "Raman Spectroscopic Signature of Life" . 濵口宏夫, 21世紀COEシンポジウム, 東京大学，東京 (2004.6)
28. Wonder and Fun with Ionic Liquids. 濵口宏夫, イオン液体研究会シンポジウム，(2004.6)
29. 分子と生命をつなぐ分光学. 濵口宏夫, 日本分光学会春季シンポジウム, 東京 (2004.5)
30. 分光学の発展と医学応用の可能性. 濵口宏夫, 医用分光学研究会, 東京 (2004.4)
31. 時間と空間を分解したラマン分光学：分子から生細胞まで. 濵口宏夫, 花王講演会, 栃木 (2004.3)
32. 時間と空間を分解した振動分光学：分子から生細胞, 人体組織まで. 濵口宏夫, シンポジウム「分光学の新たな展開」, 札幌 (2003.12)
33. 動的分子論の構築に向けて：光異性化反応から細胞分裂まで. 濵口宏夫, ２１世紀ＣＯＥセミナー, 福岡 (2003.11)
34. 振動分光学の最近の発展：分子から生細胞まで. 濵口宏夫, 日本分光学会中国四国支部設立記念講演会, 広島 (2003.7)
35. 近赤外ラマン分光による生体のin vivo分子レベル解析. 濵口宏夫, 分子ダイナミック分光セミナー, 浜松 (2003.7)
36. 生細胞のin vivo時空間分解ラマン分光. 濵口宏夫, 日本学術振興会第１６７委員会講演会, 川崎 (2003.4)
37. ラマンプロテオミクスの可能性. 濵口宏夫, 情報学シンポジウム, 東京 (2003.1)
38. 振動分光で見たイオン液体の構造とダイナミクス． 濵口宏夫, 科学研究費補助金基盤研究 (c）企画調査「イオン液体の化学」全体会議, 東京 (2003.1)
39. 動的分子論の構築と発展に向けて. 濵口宏夫, 第１００回京都大学物理化学セミナー, 京都 (2002.12)
40. イオン液体の構造とダイナミクス：振動分光学的アプローチ. 濵口宏夫, 科学研究費補助金基盤研究 (c）企画調査「イオン液体の化学」物理化学班研究会, 東京 (2002.11)
41. 振動スペクトルで観た分子の動的構造. 濵口宏夫, 分子研研究会 (2002.11)
42. 水素原子が変位しないプロトン移動反応座標？２-アミノピリジン／酢酸系のプロトン移動ダイナミクス．濵口宏夫、石川広典、岩田耕一，日本化学会秋季年会，大阪 (2002.9)
43. ラマン分光の生物学・医学応用の最先端〜生細胞の in vivo時空間分解ラマン分光〜. 濵口宏夫, 味の素(株)講演, 川崎 (2002.5)
44. 生細胞の in vivo 時空間分解ラマン分光. 濵口宏夫, 日本分光学会春季シンポジウム, 東京 (2002.5)
45. 振動分光で観る分子のダイナミクス. 濵口宏夫, 第１回分子ダイナミック分光ワークショップ, 浜松 (1999.7)
46. 分子の不思議. 濵口宏夫, 日本化学会関東支部講演会「化学への招待」, 東京 (1999.3)
47. 超高速分子分光学とその応用. 濵口宏夫, 奈良先端大学技術セミナー, 奈良 (1999.1)
48. コヒーレントラマン分光法による複雑系の構造解析. 濵口宏夫, ダイナミック分光計測セミナー, 浜松 (1998.7)
49. 近赤外励起ラマン分光法の開発とその医学的応用の可能性. 濵口宏夫, 光医学研究会, 東京 (1998.7)
50. 複雑系を観るダイナミック分光計測. 濵口宏夫, ダイナミック分光計測セミナー, 浜松 (1997.7)
51. 新しい時間分解分光―ミリ秒からフェムト秒まで―. 濵口宏夫, ニューフロンティア材料研究会, 大阪 (1996.12)
52. 時間分解振動分光法でなにがわかるようになったか. 濵口宏夫, 機器分析東京討論会, 東京 (1996.11)
53. 分子のフェムト秒動的分極と振動位相緩和・化学反応. 濵口宏夫, 分子科学研究所コロキウム, 岡崎 (1996.6)
54. 時間分解赤外・ラマン分光法の最近の進歩. 濵口宏夫, 日本化学会第70春季年会 (1996.3)
55. 神奈川科学技術アカデミーにおける基礎研究. 濵口宏夫, 早稲田大学理工学研究センターシンポジウム, 東京 (1995.10)
56. 極限分子計測と分光学. 濵口宏夫, 日本分光学会夏期セミナー, 川崎 (1995.8)
57. 時間分解振動分光の基礎. 濵口宏夫, ダイナミック分光計測セミナー, 浜松 (1995.6)
58. サブピコ秒からミリ秒の時間領域の振動分光（線形, 非線形）で何がわかるか. 濵口宏夫, 日本分光学会平成７年度春季講演会・シンポジウム, 東京 (1995.5)
59. 高速時間分解分光で観た励起分子の電子・振動ダイナミクス：B-O近似を超えて. 濵口宏夫, 分子構造総合討論会, 東京 (1994.9)
60. 時間分解分光で観る短寿命分子の世界. 濵口宏夫, 東北大学雑誌会, 仙台 (1994.7)
61. フェムト−ミリ秒時間分解振動分光法とその応用. 濵口宏夫, 超高速光計測セミナー, 浜松 (1994.7)
62. １兆分の１秒の分子の世界を観る. 濵口宏夫, 北里大学特別講義, 相模原 (1994.6)
63. 電子励起分子のピコ・フェムト秒振動位相緩和と化学反応. 濵口宏夫, ピコ・フェムト秒超高速分光学研究会, 岡崎 (1994.3)
64. 時間分解振動分光法の最近の進歩. 濵口宏夫, 物質工学工業技術研究所フォーラム, 筑波 (1994.3)
65. ピコ−マイクロ秒時間分解振動分光の新手法と生体系への応用. 濵口宏夫, 日本化学会第66秋季年会シンポジウム, 西宮 (1993.9)
66. 時間分解振動分光法でみた高速分子現象. 濵口宏夫, 日本化学会第18回九州支部夏期セミナー講演会, 阿蘇 (1993.7)
67. 時間分解ラマン分光法. 濵口宏夫, 日本分光学会 赤外・ラマン分光法講習会, 川崎 (1992.12)
68. バクテリオロドプシンの時間分解振動分光：ピコ・ナノ・マイクロ秒領域の赤外・ラマンスペクトル. 濵口宏夫, 日本分光学会レーザー研究部会シンポジウム, 東京 (1992.12)
69. 超高速分子現象を観る. 濵口宏夫, 東京大学工学部精研会講演会, 東京 (1992.11)
70. ピコ秒時間分解ラマン分光法とその応用. 濵口宏夫, 日本物理学会音響・フォノンシンポジウム, 東京 (1992.9)
71. 時間分解赤外ラマン分光法の最近の進歩. 濵口宏夫, レーザー学会第187回研究会, 大阪 (1992.7)
72. Raman and Fluorescence. 濵口宏夫, 東北大学講演会「Advances in Laser Spectroscopy」, 仙台 (1992.7)
73. 時間分解振動分光法：ピコ秒時間分解ラマンおよび100ナノ秒時間分解赤外分光法. 濵口宏夫, 分子科学研究所研究会, 岡崎 (1992.6)
74. 時間分解分光法による超高速分子現象の追跡. 濵口宏夫, 早稲田大学講演会「基礎科学の諸問題」, 東京 (1991.12)
75. 新しい非線形ラマン分光法 PCARS と溶液・液体のクラスター構造. 濵口宏夫, 分子科学研究所研究会「クラスターの反応とダイナミックス」, 岡崎 (1991.12)
76. ラマン分光法の現状と展望. 濵口宏夫, 日本分光学会赤外・ラマン分光法講習会, 大阪 (1991.12)
77. 時間分解振動分光法による機能性材料の動的評価. 濵口宏夫, 表面技術協会機能材料ドライプロセシング専門部会第11回例会, 川崎 (1991.1)
78. 新素材と時間分解分光. 濵口宏夫, 日本分光学会赤外ラマン・顕微分光部会合同シンポジウム, 横浜 (1990.11)
79. 時間分解振動分光学の進歩. 濵口宏夫, 日本分光学会東海支部講演会, 津 (1990.9)
80. ラマン散乱の測定装置. 濵口宏夫, 日本分光学会ラマン・FT-IR分光法講習会, 大阪 (1989.12)
81. 赤外・ラマン分光法の現状と展望. 濵口宏夫, 日本分光学会FT-IR・ラマン分光法講習会, 東京 (1988.12)
82. 時間分解ラマン分光. 濵口宏夫, 日本分光学会秋季講演会・シンポジウム特別講演, 京都 (1986.12)
83. パルスレーザーを用いた線形および非線形ラマン分光. 濵口宏夫, 日本分光学会赤外・ラマン研究部会, 東京 (1983.12)