Domestic

38. “ナノ材料と色素を活用した水分解光触媒系の構築”
160回微小光学研究会 (2021年10月29日, オンライン).
37. “固体材料と分子を活用した二酸化炭素還元光触媒系の構築”
日本化学会第14回技術開発フォーラムCO2利用のための触媒技術の動向と展望 (2021年2月24日, オンライン).
36. “複合アニオン化合物を用いた物質変換反応”
第15回ケムステVシンポジウム 「複合アニオン」 (2021年2月5日, オンライン).
35. “研究人生17年〜私が影響を受けた先生方〜”
AIKOC-4 (2020年8月31日, オンライン).
34. “酸フッ化物を用いた光エネルギー変換反応”
OCU先端光科学シンポジウムーナノフォトニクスが切り拓く分子運動・化学反応制御の探求ー (2019年10月20日, 大阪市立大学).
33. “PbとTiを含む酸フッ化物の光吸収特性と光触媒作用”
第68回高分子討論会 (2019年9月26日, 福井大学).
32. “エネルギー変換型光触媒”
日本分析化学会第13回近畿支部 夏季セミナー~ぶんせき秘帖巻ノ拾弐~ (2019年8月2日, アイ・アイランド).
31. “光触媒から学んだ研究の楽しみ方”
第40回光化学若手の会 (2019年6月14日, 大学セミナーハウス).
30. “半導体光触媒を中核とした水の分解・CO2の固定化反応”
京都工芸繊維大学環境科学センター第1回技術セミナー (2018年12月21日, 京都工芸繊維大学).
29. “人工光合成系構築を目指した新しい複合アニオン光触媒の開発”
応用物理学会 応用電子物性分科会 (2018年12月17日, 東京工業大学).
28. “半導体と錯体が教えてくれた光触媒研究の面白さ”
錯体化学若手の会 関東支部前期勉強会2018   (2018年5月26日, 東京大学).
27. “複合アニオン化合物を用いた人工光合成系の構築”
第65回応用物理学会春季学術講演会   (2018年3月18日, 早稲田大学).
26. “半導体、錯体、ナノ粒子で創る二酸化炭素還元光触媒システム”
CO2有効利用技術と人工光合成の研究開発動向セミナー   (2017年10月12日, 連合会館).
25. “半導体光触媒による水の分解と二酸化炭素固定化”
名古屋大学大学院工学研究科応用物資化学専攻 応用物質化学セミナー   (2017年8月2日, 名古屋大学).
24. “半導体、錯体、ナノ粒子をビルティングブロックとしたエネルギー変換型光触媒系の構築”
第402回触媒科学研究所コロキウム  (2017年7月7日, 北海道大学).
23. “半導体光触媒を中核とした人工光合成系の構築”
第六回 「酸化物研究の新機軸に向けた学際討論会」  (2017年6月17日, 九州大学).
22. “固体光触媒を用いた水の光分解、二酸化炭素の光還元反応”
第2回固体化学フォーラム研究会  (2017年6月14日, 東北大学金属材料研究所).
21. “金属錯体と半導体の特徴を活かした二酸化炭素還元光触媒の創出”
第27回グリーンケミストリーフォーラム  (2017年3月15日, 東京工業大学).
20. “可視光水分解を実現する新たな光触媒系の開発”
第10回物性科学領域横断研究会 第11回凝縮系科学賞受賞講演  (2016年12月9日, 神戸大学).
19. “半導体と錯体を融合した革新的光触媒系の構築”
錯体学会若手の会東海地区勉強会  (2016年11月26日, 分子科学研究所岡崎コンファレンスセンター).
18. “人工光合成型光触媒のナノ構造”
触媒学会 ナノ構造触媒研究会講演会 『特異的ナノ構造のもたらす触媒作用』  (2016年11月4日, 東京工業大学すずかけ台キャンパス).
17. “太陽光エネルギー変換を目指した非酸化物系光触媒の開発”
東京工業大学産学連携会議 (2016年6月2日, 東京工業大学大岡山キャンパス).
16. “太陽光エネルギー変換を指向した非酸化物系光触媒の開発”
日本セラミックス協会 第28回秋季シンポジウム (2015年9月17日, 富山大学五福キャンパス).
15. “表面修飾型光触媒による可視光水分解と二酸化炭素固定化反応”
日本化学会第94春季年会 (2015年3月27日, 日本大学船橋キャンパス).
14. “光触媒が教えてくれた研究の楽しさと難しさ”
触媒学会若手会 第25回フレッシュマンゼミナール (2014年5月10日, 東京工業大学大岡山キャンパス 70周年記念講堂).
13. “遷移金属酸化物ナノシートを用いた水分解光触媒系の構築”
日本化学会研究会「低次元系光機能材料研究会」第3回研究講演会 ―低次元系光機能材料と人工光合成― (2014年5月9日, 日本化学会館).
12. “水の可視光分解のための新規光触媒及び助触媒材料の開発”
日本化学会第94春季年会 進歩賞受賞講演 (2014年3月29日, 名古屋大学東山キャンパス).
11. “水の可視光分解のための新規光触媒及び助触媒材料の開発”
近畿大学理工学部古南研究室 表面設計化学セミナー (2014年3月7日, 近畿大学).
10. “表面ナノ構造を制御した半導体光触媒による水の可視光完全分解”
第31回無機材料に関する最近の研究成果発表会 (2014年1月27日, 東海大学校友会館).
9. “可視光で水を分解する無機固体光触媒の開発 ~その難しさと面白さ~”
東京工業大学化学科セミナー (2012年12月5日, 東京工業大学大岡山キャンパス).
8. “無機半導体粉末を用いた水の分解反応”
明治大学理工学部渡辺研究室セミナー (2012年10月18日, 明治大学生田キャンパス).
7. “可視光応答型酸窒化物光触媒による水の分解反応”
第12回光触媒研究討論会 (2012年7月10日, 東京大学先端科学技術研究センター).
6. “水の可視光分解を指向した粉末光触媒及び反応活性点の開発”
三菱化学合成技術研究所・無機系機能材料研究所 月報会 (2012年4月19日, 三菱化学科学技術研究センター).
5. “水分解光触媒の表面ナノ構造”
熊本大学拠点形成研究Bプロジェクト「ソフト溶液プロセスをベースとした階層的ナノ組織集積材料の創成」 (2012年1月27日, 熊本大学工学部).
4. “太陽光で水を分解して水素を製造する粉末光触媒の開発”
応用物理学会シンポジウム「人工光合成」 (2011年1月28日, 東北大学東京分室)
3. “夢の化学反応、可視光水分解を可能にする新しい光触媒系の開発”
材料化学システム工学討論会2010 (2010年12月5日, 京都大学).
2. “可視光で水を分解して水素を製造する新しい光触媒の研究開発”
平成21年度化学セミナー (2009年11月10日, 筑波大学).
1. “水の完全分解反応を指向した新規可視光応答型光触媒の研究開発”
神奈川大学応用化学専攻院生セミナー (2006年10月28日, 神奈川大学).

International

85. “Artificial Z-scheme constructed from metal oxide nanosheets and dye molecules for overall water splitting”
The 1st International Conference on Energy Materials (November 5, 2021, オンライン).
84. “Visible-light water splitting and CO2 fixation using metal complex/semiconductor hybrid materials”
The 11th Asian Photochemistry Conference (November 2, 2021, オンライン).
83. “Metal oxide nanosheets as building blocks for photo-induced water splitting systems”
International solar fuels conference 2021 (July 30, 2021, オンライン).
82. “Dye-Sensitized Oxide Nanosheets for Visible-Light Water Splitting”
The 239th ECS Meeting (June 3, 2021, オンライン).
81. “Layered materials and their nanosheets for solar fuel production”
The 11th THERMEC'2020 International Conference (June 1-5, 2021, オンライン).
80. “Metal-complex/Semiconductor Hybrid Photocatalysts and Photoelectrodes for Visible-light CO2 Reduction”
第二回 台湾化学会/日本化学会 国際シンポジウム (March 21, 2021, オンライン).
79. “Photocatalytic and Photoelectrochemical Water Splitting by a Visible-Light-Absorbing Oxyfluoride”
2020 Virtual MRS Spring/Fall Meeting & Exhibit (November 27 - December 4, 2020, オンライン).
78. “New Materials Design toward Artificial Photosynthesis”
Membrane and Film Technology on Photoelectrocatalysis Application (November 9, 2020, オンライン).
77. “Light-to-chemical energy conversion using new mixed anion compounds”
The 2nd Symposium for JSPS Core-to-Core Program "Defect Functionalized Sustainable Energy Materials: From Design to Device Application" (February 18, 2020, 東京工業大学).
76. “Non-oxide semiconductors for carbon dioxide conversion with visible light”
The 18th Asian Chemical Congress and the 20th General Assembly of the Federation of Asian Chemical Societies (December 12, 2019, Taipei, Taiwan).
75. “New materials for solar fuel production from mixed-anion compounds to organic polymers”
ICFM & MFMS & INM 2019 (November 24, 2019, Chongqing, China).
74. “Development of new materials for artificial photosynthesis from mixed-anion compounds to organic polymers”
3rd International Solar Fuels Conference (ISF-3) Youngシンポジウム (November 20, 2019, JMS アステールプラザ 広島市国際青年会館).
73. “A Lead-Titanium Oxyfluoride as a New Visible-Light-Absorbing Semiconductor for Photocatalytic and Photoelectrochemical Water Splitting”
The 13th Pacific Rim Conference on Ceramic and Glass Technology (October 29, 2019, Okinawa Convention Center).
72. “Carbon dioxide conversion using metal-complex/semiconductor hybrid photocatalysts ”
第69回錯体化学討論会 Symposium on catalytic transformation of gaseous molecules (September 21, 2019, 名古屋大学).
71. “Water oxidation by new semiconductor photocatalysts”
The International Functional Nanomaterials and Nanodevices Conference 2019 (September 11, 2019, Prague, Czech Republic).
70. “New Mixed Anion Materials for Water Splitting and CO2 Fixation”
Materials Challenges in Alternative and Renewable Energy 2019 (August 19, 2019, Jeju, Korea).
69. “Photocatalytic and Photoelectrochemical Water Splitting and CO2 Fixation using New Mixed-Anion Compounds”
2nd Global Forum on Advanced Materials and Technologies for Sustainable Development (GFMAT-2) (July 24, 2019, Marriott Downtown at CF Toronto Eaton Centre, Toronto, Canada).
68. “New Mixed-Anion Photocatalysts for Water Splitting and CO2 fixation”
235th ECS Meeting (May 30, 2019, Sheraton Dallas Hotel, Dallas, USA).
67. “Oxyfluorides as New Visible-Light-Absorbing Semiconductors for Water Splitting and CO2 Fixation”
International Conference on Photocatalysis and Photoenergy 2019 (May 23, 2019, Songdo ConvensiA, Korea).
66. “Surface modified semiconductor photocatalysts for visible-light CO2 reduction and water oxidation”
Special Seminar Hosted by Prof. Thomas Mallouk (March 26, 2019, The Pennsylvania State University, USA).
65. “Development of new mixed anion materials for solar-to-chemical energy conversion”
Seminar of Research Institute of Photocatalysis (March 7, 2019, Fuzhou University, China).
64. “TiO2-based mixed anion materials for solar fuel production”
EMN Auckland Meeting (December 19, 2018, Auckland, New Zealand).
63. “Visible-Light CO2 Reduction Using Mixed-Anion Photocatalysts”
1st International Conference on Advanced Chemistry and Catalysis (December 6, 2018, Las Vegas, USA).
62. “Materials for Artificial Photosynthesis from Mixed-Anion Compounds to Organic Polymers”
The 3rd International Conference on Emerging Advanced Nanomaterials (November 1, 2018, Newcastle Exhibition and Convention Center, Newcastle, Australia).
61. “Visible-Light Reduction of Carbon Dioxide on Metal-Complex/Carbon Nitride Hybrid Photocatalysts”
The 43rd International Conference on Coordination Chemistry (August 1, 2018, Sendai International Center, Japan).
60. “Chemical approach to artificial photosynthesis using semiconductors, nanoparticles and metal complexes”
The 2018 International Symposium on Advancement and Prospect of Catalysis Science & Technology (July 27, 2018, The University of Sydney, Australia).
59. “Mixed-anion solids for solar-to-fuel energy conversion”
12th International Conference on Ceramic Materials and Components for Energy and Environmental Applications (July 25, 2018, Suntec Convention & Exhibition Centre, Singapore).
58. “New Heterogeneous Photocatalysts Constructed with Semiconductors, Nanoparticles, and Metal Complexes toward CO2 Reduction and Water Oxidation”
THERMEC'2018 (July 12, 2018, Paris, France).
57. “Surface modified semiconductor photocatalysts for carbon dioxide reduction and water oxidation”
Beilstein Organic Chemistry Symposium 2018 (April 26, 2018, Potsdam, Germany).
56. “Artificial photosynthetic assembly constructed with metal complexes, nanoparticles and semiconductors”
The 2018 MRS Spring Meeting (April 3, 2018, Phoenix Convention Center, USA).
55. “New materials designed for artificial photosynthesis” (Plenary Lecture)
Workshop on New Absorbers & Future Materials (March 12, 2018, Justus-Liebig-University, Germany).
54. “CO2 Reduction and Water Oxidation Using Surface-Modified Semiconductor Photocatalysts”
International CLS Forum on Photo and Catalytic Science for Sustainable Society (March 4, 2018, 東京工業大学).
53. “Development of artificial photosynthetic assemblies using semiconductors, nanoparticles, and metal complexes”
Seminar of Research Institute of Photocatalysis (February 27, 2018, Fuzhou University, China).
52. “Photocatalytic CO2 Reduction and Water Oxidation Using Surface-Modified Semiconductors”
Symposium on Nanomaterials for Environmental Purification and Energy Conversion (February 21, 2018, 北海道大学).
51. “Oxynitrides as Photocatalysts for Water Splitting and CO2 Fixation”
The 6th Toyota RIKEN International Workshop (November 10, 2017, Toyota Commemorative Museum of Industry and Technology).
50. “Visible light CO2 reduction and water oxidation on modified semiconductor photocatalysts”
232nd Electrochemical Society (ECS) Meeting (October 3, 2017, Washington DC, USA).
49. “Metal-Complex/Semiconductor Hybrid Photocatalysts for Carbon Dioxide Fixation”
第67回錯体化学討論会シンポジウム (September 16, 2017, 北海道大学).
48. “Construction of artificial photosynthetic assemblies using semiconductors, nanoparticles, and metal complexes”
International Symposium on Chemistry for Solar Energy Applications 2017 (August 31, 2017, 近畿大学).
47. “Photocatalytic Water Splitting and CO2 Fixation Using Oxynitrides and Nitrides”
The 9th International Symposium on Nitrides and Related Materials (August 30, 2017, 北海道大学).
46. “New Semiconductor Photocatalysts Designed for CO2 Reduction and Water Oxidation under Visible Light”
The 7th International Multidisciplinary Conference on Optofluidics 2017 (July 26, 2017, Grand Copthrone Waterfront Hotel, Singapore).
45. “New Heterogeneous Photocatalysts Designed for Water Oxidation and CO2 Reduction”
Nano-Micro Conference 2017 (June 21, 2017, Shanghai Marriott Hotel Riverside, China).
44. “Water splitting using metal oxide photocatalysts”
The 12th Pacific Rim Conference on Ceramic and Glass Technology (May 23, 2017, Hilton Waikoloa Village, HI, USA).
43. “CO2 reduction and water oxidation by new semiconductor photocatalysts”
International Conference on Catalysis and Chemical Engineering (February 23, 2017, The Double Tree by Hilton Baltimore-MWI Airport, MD, USA).
42. “Development of New Visible-Light-Driven Photocatalysts for Water Oxidation Based on Rutile TiO2
第7回「フォーラム:人工光合成」 (January 28, 2017, 東京工業大学).
41. “Molecular-based heterogeneous photocatalysts for solar fuel production”
2nd Joint Workshop between NTU, Singapore and Tokyo Tech (November 17, 2016, Tokyo Institute of Technology).
40. “Z-scheme reduction of carbon dioxide with visible light using a binuclear metal complex and a semiconductor”
SPIE Optics + Photonics for Sustainable Energy (August 31, 2016, San Diego Convention Center, San Diego, USA).
39. “Visible-light CO2 reduction using metal-complex/semiconductor photocatalysts”
The 6th Sino-Japan bilateral young chemist forum (July 2, 2016, Dalian University of Technology, Dalian, China).
38. “New heterogeneous photocatalysts designed for solar-to-fuel conversion”
LEE HSUN Young Scientist Lecture Series on Materials Science (April 14, 2016, Institute of Metal Research, Shenyang, China).
37. “Metal Oxide Nanosheets for Light-Induced Water Splitting”
2016 MRS Spring Meeting (March 29, 2016, Phoenix Convention Center, USA).
36. “Reduction of Carbon Dioxide Using Metal-Complex/Semiconductor Hybrid Photocatalysts”
Asian International Symposium on Photochemistry (March 25, 2016, 同志社大学京田辺キャンパス).
35. “Visible-Light-Driven Water Splitting and Carbon Dioxide Fixation by Surface Modified Semiconductor Photocatalysts”
Prof. Hua Zhang’s group special seminar (February 25, 2016, Nanyang Technological University, Singapore).
34. “Heterogeneous photocatalysis: New ideas and methodologies toward efficient water splitting”
The 2015 International Chemical Congress of Pacific Basin Societies (Pacifichem)  (December 19, 2015, Hyatt Regency Waikiki, USA).
33. “Photocatalytic reduction of carbon dioxide by carbon nitride with visible light”
The 2015 International Chemical Congress of Pacific Basin Societies (Pacifichem)  (December 15, 2015, Hyatt Regency Waikiki, USA).
32. “Development of New Photocatalysts for Solar-to-Fuel Conversion”
228th Electrochemical Society (ECS) Meeting (October 14, 2015, Phoenix Convention Center, USA).
31. “Metal-Complex/Nanostructured Semiconductor Hybrids for Photocatalytic CO2 Reduction under Visible Light”
The 6th International Conference on Nanoscience & Technology (September 4, 2015, Beijing International Convention Center, Beijing, China).
30. “Fixation of Carbon Dioxide with Visible Light over Metal- Complex/Nanostructured-Semiconductor Hybrid Photocatalysts”
The 11th International Conference of Pacific Rim Ceramic Societies (PacRim-11) (September 2, 2015, International Convention Center of Jeju, Jeju, Korea).
29. “Metal-complex/semiconductor hybrids for carbon dioxide fixation”
SPIE Optics + Photonics for Sustainable Energy (August 9, 2015, San Diego Convention Center, San Diego, USA).
28. “Water splitting and CO2 reduction using modified semiconductor photocatalysts”
11th International Conference on Ceramic Materials and Components for Energy and Environmental Applications (June 18, 2015, Hyatt Regency Vancouver, Vancouver, Canada).
27. “Design of new heterogeneous photocatalysts for solar-to-fuel conversion”
Prof. Pingwu Du’s group seminar (May 15, 2015, University of Science and Technology, China).
26. “Photocatalytic Water Splitting and CO2 Fixation over Surface-Modified Semiconductors under Visible Light”
249th ACS National Meeting (March 24, 2015, Colorado Convention Center, Denver, USA).
25. “Hydrogen Evolution and CO2 Reduction by Metal-Complex/Nanostructured-Semiconductor Hybrids under Visible Light”
3rd International Symposium on Chemistry for Energy Conversion and Storage (January 20, 2015, The Harnack House, Berlin, Germany).
24. “Semiconductor Photocatalysts for Water Splitting and CO2 Fixation”
The International Conference on Electronic Materials and Nanotechnology for Green Environment 2014 (November 18, 2014, Ramada Plaza, Jeju, Korea).
23. “Development of New Semiconductor Photocatalysts for Light-to-Chemical Energy Conversion”
Research Institute of Photocatalysis, Fuzhou University, Seminar (October 25, 2014, Fuzhou University, China).
22. “Water Splitting and CO2 Fixation over Modified Semiconductor Photocatalysts under Visible Light”
The 4th International Symposium on Solar Fuels and Solar Cells (October 24, 2014, Dalian Institute of Chemical Physics, China).
21. “A Polymer Semiconductor/Metal-Complex Hybrid Photosystem for CO2 Reduction”
UK-Japan Solar Driven Fuel Synthesis Workshop: Materials, Understanding and Reactor Design (September 18–19, 2014, British Embassy Tokyo, Japan).
20. “Photocatalytic CO2 Reduction using Carbon Nitride Polymers”
8th International Symposium on Nitrides (September 2, 2014, Wildbad Kreuth, Germany).
19. “Photocatalytic Hydrogen Evolution on Nanostructured Lamellar Solids”
TOCAT7 Post-Symposium (June 8, 2014, Waseda University, Japan).
18. “Visible-light water splitting and CO2 reduction by modified semiconductor photocatalysts”
TOCAT7 KYOTO2014 (June 5, 2014, Kyoto, Japan).
17. “Solar-driven water splitting by modified semiconductor photocatalysts”
EMN Spring Meeting 2014 (February 28, 2014, Las Vegas, USA).
16. “Metal-Complex/Nanostructured-Semiconductor Hybrids for Efficient Hydrogen Production under Visible Light”
International Conference on Hydrogen Production - 2014 (February 3, 2014, 九州大学).
15. “Visible-Light water splitting using modified oxynitride photocatalysts”
The 8th international conference on processing & manufacturing of advanced materials (December 4, 2013, Las Vegas, USA).
14. “Semiconductor photocatalysts for visible-light water splitting: Structure and reaction mechanism”
平成25年度 日本分光学会年次講演会 国際シンポジウム「分光学の太陽電池・天然/人工光合成への応用」(November 20, 2013, 大阪大学).
13. “Photocatalytic water splitting using surface-modified oxynitride powder”
Asian International Symposium (March 24, 2013, Ritsumeikan University, Japan).
12. “Solar water splitting by modified oxynitride photocatalysts”
PCCP-MANA Symposium on Nanotechnology, Materials and Physical Chemistry (October 1, 2012, NIMS, Japan).
11. “Surface Modified Oxynitrides as Photocatalysts for Water Splitting under Visible Light”
The fifth World Hydrogen Technologies Convention (WHTC2013) (September 27, 2012, Shanghai, China).
10. “Recent Progress in Photocatalytic Water Splitting”
The 3rd International Forum on Photoenergy Future (IFPF2011) (December 7, 2011, RAMADA Plaza, Jeju, Korea).
9. “Visible-light water splitting using oxynitride particles”
Seminar of Prof. Can Li's Group (October 24, 2011, Dalian Institute of Chemical Physics, China)
8. “Visible-light water splitting using non-oxide semiconductor particles”
Low Carbon Earth Summit-2011 (LCES-2011) (October 23, 2011, Dalian World Expo Center, China).
7. “Water splitting under visible light using modified oxynitride particles”
Symposium on the Fundamentals of Photocatalysis (July 11, 2011, Hefei National Laboratory for Physical Sciences at the Microscale, at the University of Science and Technology, China).
6. “Photocatalytic Water Splitting Using Oxynitrides Powder under Visible Light”
The Mallouk Group Special Seminar (December 2, 2010, The Pennsylvania State University, USA).
5. “Overall water splitting on oxynitride photocatalysts under visible light”
Symposium Sustainable Chemistry: Catalysis and photochemistry for Energy Technologies (July 1, 2010, Rostock, Germany).
4. “Overall water splitting using oxynitride photocatalysts under visible light”
SP3 - Third International Conference on Semiconductor Photochemistry (April 13, 2010, University of Strathclyde, Scotland).
3. “Development of New Heterogeneous Photocatalysts for Overall Water Splitting under Visible Light”
SERC seminar on Integrated Solar Fuels Systems (October 23, 2008, Lawrence Berkeley National Laboratory, USA).
2. “Photocatalytic Overall Water Splitting under Visible Light: Design of New Materials and Control of Nano-Structure”
Max-Planck Institute Seminar (April 2, 2008, Max-Planck Institute, Germany).
1. “Development of a Novel Visible-Light-Responsive Photocatalyst for Overall Water Splitting”
Seminar of The Penn State Center for Nanoscale Science (December 3, 2007, The Pennsylvania State University, USA).

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