受賞

• Symposium of Host-Guest and Supramolecular Chemistry (SHGSC) Japan Award of Excellence
  　（2019年5月）
• International Congress on Pure & Applies Chemistry 2018 (ICPAC 2018) Symposium Award　（2018年3月）
• International Symposium on Pure & Applies Chemistry 2016 (ISPAC 2016) Excellent Oral Presentation Award　（2016年8月）
• 日本化学会　第28回若い世代の特別講演会　（2014年3月）
• バイオ関連化学合同シンポジウム　講演賞（2006年9月）
• 日本化学会第83春季年会　学生講演賞（2003年3月）

所属学会

日本化学会、錯体化学会、電気化学会、触媒学会、炭素材料学会

Publications

1. “Metal–Ligand Delocalization of Iron and Cobalt Porphyrin Complexes in Aqueous Solutions Probed by Soft X–ray Absorption Spectroscopy”
   Nagasaka, M;* Tsuru, S.; Yamada, Y. in revision.

2. “Effect of Porphyrin Ligand on Catalytic CH4 Oxidation Activity of Monocationic µ-Nitrido-Bridged Iron Porphyrinoid Dimer”
   Yamada, Y.*; Miwa, Y.; Toyoda, Y.; Uno, Y.; Phung, Q. M.; Tanaka, K.*
   Dalton Trans. accepted. DOI : 10.1039/D3DT04313D.

3. “Inorganic–Organic Framework Constructed by the Intercalation of a Double–Decker Porphyrin Metal Complex into Clay Nanosheets and Its Efficient Dye Adsorption Ability”
   Yamada, Y. *; Nishino, T.; Hashimoto, A.; Toyoda, Y.; Yoshikawa, H.; Tanaka, K.*
   ACS Appl. Opt. Mater. 2, 405–413 (2024). DOI : 10.1021/acsaom.3c00444.
   (Selected as Front Cover Picture)

4. “Design and Synthesis of Poly(2,2’-bipyridyl) Ligands for Use in Cancer Chelation Therapy: Control of Anticancer Activity and Cytotoxicity by Complexation/Decomplexation with Biorelevant Metal Cations”
   
   Balachandran, C.; Hirose, M.; Tanaka, T.; Jie, Z. J.; Yokoi, K.; Hisamatsu, Y.; Yamada, Y.; Aoki, S.*
   

   Inorg. Chem. 62, 14615–14631 (2023).  DOI: 10.1021/acs.inorgchem.3c01738.
   (Selected as Supplementary Cover Picture)

5. “Optical Resolution of Carboxylic Acid Derivatives of Homoleptic Cyclometalated Iridium(III) Complex via Diastereomers Formed with Chiral Auxiliaries”
   Kanbe, A.; Yokoi, K.; Yamada, Y.; Tsurui, M.; Kitagawa, Y.; Hasegawa, Y.; Ogata, D.; Yuasa, J.; Aoki, S.*
   Inorg. Chem. 62, 11325–11341 (2023). DOI: 10.1021/acs.inorgchem.3c00685.

6. “Evaluation of CH₄ Oxidation Activity of High-Valent Iron-Oxo Species of A µ-Nitrido-Bridged Heterodimer of Iron Porphycene and Iron Phthalocyanine”
   
   Yamada, Y.*; Miwa, Y.; Toyoda, Y.; Phung, Q. M.; Oyama, K.-i.; Tanaka, K.*
   

   Catal. Sci. & Technol. 13, 1725–1734 (2023). DOI: 10.1039/D2CY01980A.
7. “Stacking of Cofacially Stacked Iron Phthalocyanine Dimer on Graphite Achieved High Catalytic CH₄ Oxidation Activity Comparable to that of pMMO”
   
   Yamada, Y.*; Morita, K.; Sugiura, T.; Toyoda, Y.; Mihara, N.; Nagasaka, M.; Takaya, H.; Tanaka, K.; Koitaya, T.; Nakatani, N.; Ariga-Miwa, H.; Takakusagi, S.; Hitomi, Y.; Kudo, T.; Tsuji, Y.; Yoshizawa, K.; Tanaka, K.*
   

   JACS Au, 3, 823-833 (2023). DOI :10.1021/jacsau.2c00618,
   ChemRxiv DOI : https://doi.org/10.26434/chemrxiv.14728860.v1
   (Selected as Front Cover Picture)
   名古屋大学 科学技術振興機構（ＪＳＴ） プレスリリース [Link]
8. “Synthesis of Isomeric Tb³⁺–Phthalocyanine Double–Decker Complexes Depending on the Difference in the Direction of Coordination Plane and Their Magnetic Properties”
   Yamada, Y.; Nakajima, H.; Kobayashi, C.; Shuku, Y.; Awaga, K.; Akine, S.; Tanaka, K.*
   Chem. Eur. J., 29, e202203272 (2023). DOI: 10.1002/chem.202203272.

   (Selected as Outside Front Cover Picture)

9. “Significant Effect of Flexibility of Bridging Alkyl Chains on the Proximity of Stacked Porphyrin and Phthalocyanine Conjugated with Fourfold Rotaxane Linkage”
   Yamada, Y.; Iida, H.; Shibano, S.; Mihara, N.; Kato, T.; Tanaka, K.*
   Chem. Eur. J., 28, e202200819, (2023). DOI: 10.1002/chem.202200819.
   (Selected as Outside Front Cover Picture)

10. “Design, Synthesis, and Anticancer Activity of Triptycene–Peptide Hybrids that Induce Paraptoic Cell Death in Cancer Cells”
    Yamaguchi, K.; Yokoi, K.; Umezawa, K.; Tsuchiya, K.; Yamada, Y.; Aoki, S.*
    Bioconjugate Chem., 33, 691–717 (2022).

11. “Direct Catalytic Benzene Hydroxylation under Mild Reaction Condition by Using a Monocationic µ-Nitrido-Bridged Iron Porphycene Dimer with 16 Peripheral Methyl Groups”

    Yamada, Y.*; Tech, C-.M.; Toyoda, Y.; Tanaka, K.*
    New J. Chem., 46, 955–958 (2022).

12. “Synthesis of a Monocationic μ-Nitrido-Bridged Iron Porphycene Dimer and Its Methane Oxidation Activity”
    Yamada, Y.*; Miwa, Y.; Toyoda, Y.; Yamaguchi, T.; Akine, S.; Tanaka, K.*
    Dalton Trans., 50, 16775–16781 (2021).
    

13. “Application of μ-nitrido- and μ-carbido-bridged iron phthalocyanine dimers as cathode-active materials for rechargeable batteries”
    Shimizu, T.; Wakamatsu, K.; Yamada, Y.*; Toyoda, Y.; Akine, S.; Yoza, K.; Yoshikawa, H.*
    ACS App. Mater. Interfaces, 13, 40612–40617 (2021).

14. “High Catalytic Methane Oxidation Activity of Monocationic μ-Nitrido-Bridged Iron Phthalocyanine Dimer with Sixteen Methyl Groups”
    Yamada, Y.*; Kura, J.; Toyoda, Y.; Tanaka, K.*
    Dalton Trans., 50, 6718–6724 (2021).

15. “Design, Synthesis, and Anticancer Properties of Bis and Mono(cationic peptide) Hybrids of Cyclometalated Ir(III) Complexes: Effect of the Number of Peptide Units on Anticancer Activity”
    Haribabu, J.; Tamura, Y.; Yokoi, K.; Balachandran, C.; Umezawa, M.; Tsuchiya, K.; Yamada, Y.; Karvembu, R.; Aoki, S.*
    Eur. J. Inorg. Chem., 18, 1796–1814 (2021).

16. “Synthesis of bis{meso-tetrakis(4-N-alkylpyridinium)porphyrinato}cerium and its redox switching behavior”
    Nishino, T.; Yamada, Y.; Yamamoto, A.; Tanaka, K.*
    Molecules, 26, 790 (2021).

17. “μ-Nitrido-Bridged Iron Phthalocyanine Dimer Bearing Eight Peripheral 12-Crown-4 Units and Its Methane Oxidation Activity”
    Yamada, Y.*; Kura, J.; Toyoda, Y.; Tanaka, K.*
    New. J. Chem., 44, 19179–19183 (2020).

18. “Design and Synthesis of Cyclometalated Iridium(III) Complex-Chromophore Hybrids that Exhibit Long Emission Lifetime Based on a REET (Reversible Electronic Energy Transfer ) Mechanism”
    A. Kazama, Y. Imai, Y. Okayasu, Y. Yamada, J. Yuasa, S. Aoki,
    Inorg. Chem., 59, 6905–6922 (2020).

19. “One-pot Synthesis of Cyclic Oligosaccharides by the Polyglycosylation of Monothioglycosides”

    H. Someya, T. Seki, G. Ishigami, T. Itoh, Y. Saga, Y Yamada, S. Aoki,
    Carbohydrate Res., 487, 107888 (2020)

20. “Catalytic Methane Oxidation by Supramolecular Conjugate Based on μ-Nitrido-Bridged Iron Porphyrinoid Dimer”
    Y. Yamada,* K. Morita, N. Mihara, K. Igawa, K. Tomooka, K. Tanaka,*
    New. J. Chem., 43, 11437–11796, (2019). (Selected as Outside Front Cover Picture)
21. “Improved Synthesis of Monocationic μ−Nitrido-Bridged Iron Phthalocyanine Dimer with No Peripheral Substituents”
    Y. Yamada, T. Sugiura, K. Morita, H. Ariga-Miwa, K. Tanaka,
    Inorg. Chim. Acta, 489, 160–163 (2019).
22. “Site-Selective Supramolecular Complexation Activates Catalytic Ethane-Oxidation of μ−Nitrido-Bridged Iron Porphyrinoid Dimer”
    N. Mihara, Y. Yamada, H. Takaya, Y. Kitagawa, K. Igawa, K. Tomooka, H. Fujii, K. Tanaka,
    Chem. Eur. J., 25, 3369-3375 (2019).
23. “Liquid-Crystalline Phthalocyanine with Short Intercolumnar Distance and Variation of the Liquid Crystallinity Induced by Square-Planar Metal Ions”
    S. Kawano, Y. Yamada, R. Shu, Y. Ishihara, K. Tanaka,
    Chem. Lett., 47, 1262–1264 (2018).
24. “Intramolecular Strong Electronic Coupling in a Discretely H-Aggregated Phthalocyanine Dimer Connected with a Rigid Linker”
    Y. Yamada, K. Nawate, T. Maeno, K. Tanaka,
    Chem. Commun., 54, 8226–8228 (2018)
25. “Programmable Arrangement of Metal Ions in a Cofacially Stacked Assembly of Porphyrinoids”
    N. Mihara, Y. Yamada, K. Furukawa, T.Kato, K. Tanaka,
    Dalton Trans., 47, 7044–7049 (2018).
26. “Dynamic Molecular Invasion into Multiply Interlocked Catenane”
    Y. Yamada, R. Itoh, S. Ogino, T. Kato, K. Tanaka
    Angew. Chem. Int. Ed., 56, 14124–14129 (2017).
27. “Oxygen Reduction to Water by Cofacial Dimer of Fe(III)porphyrin and Fe(III)phthalocyanine Linked via Highly Flexible Four-fold Rotaxane”
    N. Mihara, Y. Yamada, H. Takaya, Y. Kitagawa, S. Aoyama, K. Igawa, K. Tomooka, K. Tanaka
    Chem. Eur. J., 23, 7508-7514 (2017)
    (Selected as a Inside Cover)
28. “Electronic Perturbation of Supramolecular Conjugates of Porphyrins and Phthalocyanines”
    N. Mihara, Y. Yamada, S. Akine, K. Sugimoto, K. Tanaka
    Chem. Commun., 53, 2230-2232 (2017)
    (Selected as a Inside Back Cover)
29. “Programmable Arrangement of Heterometal Ions in a Supramolecular Array of Porphyrin and Phthalocyanine”
    N. Mihara, Y. Yamada, K. Tanaka
    Bull. Chem. Soc. Jpn., 90, 427-435 (2017)
    (Higjlighted as a Selected Paper)
30. “Assembly of Multi-Phthalocyanines on a Porphyrin Template by Fourfold Rotaxane Formation”
    Y. Yamada, T. Kato, K. Tanaka
    Chem. Eur. J., 22, 12371-12380 (2016)
    (Selected as a Hot Paper)
    (Selected as Inside Cover)
31. “Crystalline Two-dimensional Nanosheet Composed of Tetraanionic Porphyrins and Tetracationic Metallomacrocycles”
    T. Nishino, Y. Yamada, K. Tanaka
    J. Porphyr. Phthalocya., 20, 344–351 (2016).
32. “Stacked Pairing of Anionic Porphyrins on a Tetracationic Macrocyclic Template”
    T. Nishino, Y. Yamada. K. Sugimoto, S. Akine, K. Tanaka
    Chem. Lett., 45, 356–358 (2016).
33. “Kinetically Locked” Metallomacrocycle”
    T. Nishino, Y. Yamada. K. Sugimoto, S. Akine, K. Tanaka
    Dalton Trans., 45, 3831–3837 (2016).
34. “Metal-induced dynamic conformational and fluorescence switch of quinone-appended Zn-porphyrin”
    Y. Yamada. K. Hiraga, K. Tanaka
    J. Porphyr. Phthalocya., 19, 344–351 (2015).
35. “Crystal Structures of Stacked Ionic Assemblies of Tetracationic and Tetraanionic Porphyrins”
    Y. Yamada. S. Matsumoto, K. Yamada, T. Nishino, N. Mihara, K. Tanaka
    Chem. Lett., 43, 1377–1379 (2014).
36. “Sequential and Spatial Organization of Metal Complexes Inside a Peptide Duplex”
    Y. Yamada. T. Kubota, M. Nishio, K. Tanaka
    J. Am. Chem. Soc., 136, 6505–6509 (2014).
37. “Repetitive Stepwise Rotaxane Formation Toward Programmable Molecular Arrays”
    Y. Yamada. M. Okada, K. Tanaka
    Chem. Commun., 49, 11053–11055 (2013).
38. “Triply Stacked Heterogeneous Array of Porphyrins and Phthalocyanine through Stepwise Formation of a Fourfold Rotaxane and an Ionic Complex”
    Y. Yamada, N. Mihara, S. Shibano, K. Sugimoto, K.Tanaka
    J. Am. Chem. Soc., 135, 11505–11508 (2013).
39. “Synthesis of a Hetero-Dinuclear Metal Complex in a Porphyrin/Phthalocyanine Four-Fold Rotaxane”
    Y. Yamada, N. Mihara, K. Tanaka
    Dalton Trans., 42, 15873–15876 (2013).
40. “Metal-Induced Structural Switching of a Folded Quinone-Sandwiched Porphyrin”
    Y. Yamada, K. Tanaka
    J. Inorg. Organomet. Polym., 23, 180–185 (2013).
41. “Room-Temperature Single Molecular Memory”
    S. Kano, Y. Yamada, K. Tanaka, Y. Majima
    Appl. Phys. Lett., 100, 53101 (2012). (Selected as Cover Picture)
42. “Switchable Intermolecular Communication in a Four-Fold Rotaxane”
    Y. Yamada, M. Okamoto, K. Furukawa, T. Kato, K. Tanaka
    Angew. Chem. Int. Ed., 51, 709–713 (2012) (Highlighted in Nature Chem.)
43. “Design and Synthesis of a Fluorescent Probe for Zn2+, 5,7–Bis(N,N–dimethylaminosulfonyl)-8-hydroxyquinoline-Pendant 1,4,7,10- Tetraazacyclododecane and Zn2+-Dependent Hydrolytic and Zn2+- Independent Photochemical Reactivation of Its Benzenesulfonyl–Caged Derivative”
    R. Ohshima, M. Kitamura, A. Morita, M. Shiro, Y. Yamada, M. Ikekita, E. Kimura, S. Aoki
    Inorg. Chem., 49, 888–899 (2010).
44. “Photochemical Cleavage Reactions of 8-Quinolinyl Sulfonates in Aqueous Solution”
    Y. Kageyama, R. Ohshima, K. Sakurama, Y. Fujiwara, Y. Tanimoto, Y. Yamada, S. Aoki
    Chem. Pharm. Bull., 57, 1257–1266 (2009).
45. “Chiral Catalysts Dually Functionalized with Amino Acid and Zn2+ Complex Components for Enantioselective Direct Aldol Reactions Inspired by Natural Aldolases: Design, Synthesis, Complexation Properties, Catalytic Activities, and Mechanistic Study”
    Itoh, S.; Kitamura, M.; Yamada, Y.; Aoki, S.
    Chem. Eur. J., 15, 10570–10584 (2009).
46. “Design and Synthesis of a Photocleavable Biotin–Linker for the Photoisolation of Ligand–Receptor Complexes Based on the Photolysis of 8-Quinolinol Sulfonates in Aqueous Solution”
    S. Aoki, N. Matsuo, K. Hanaya, Y. Yamada, Y. Kageyama
    Bioorg. Med. Chem., 17, 3405–3413 (2009).
47. “Photolysis of the Sulfonamide Bond of Metal Complexes of N-Dansyl-1,4,7,10- Tetraazacyclododecane in Aqueous Solution: a Mechanistic Study and Application to the Photorepair of cis,syn-Cyclobutane Thymine Photodimer”
    S. Aoki, Y. Tomiyama, Y. Kageyama, Y. Yamada, M. Shiro, E. Kimura
    Chem. Asian. J., 9, 561–573 (2009).
48. “BODIPY-Based Fluorescent Redox Potential Sensors that Utilize Reversible Redox Properties of Flavin”
    Y. Yamada, Y. Tomiyama, A. Morita, M. Ikekita, S. Aoki
    Chem. Bio. Chem., 9, 853–856 (2008).
49. “Design and Synthesis of A Caged Zn2+ Probe, 8-Benzenesulfonyloxy-5-N,N-dimethyl aminosulfonylquinolin-2-ylmethyl-pendant 1,4,7,10-Tetraazacyclododecane, and Its Hydrolytic Uncaging upon Complexation with Zn2+”
    S. Aoki, K. Sakurama, R. Ohshima, N. Matsuo, Y. Yamada, R. Takasawa, S. Tanuma, K. Takeda, E. Kimura,
    Inorg. Chem., 47, 2747–2754 (2008).
50. “Efficient Cycloreversion of cis,syn–Thymine Photodimer by a Zn2+–cyclen Complex Bearing a Lumiflavin and Tryptophan by Chemical Reduction and Photoreversion of a Lumiflavin Unit (Cyclen = 1,4,7,10-Tetraazacyclododecane)”
    Y. Yamada, S. Aoki
    J. Biol. Inorg. Chem., 11, 1007–1023 (2006).
51. “A New Fluorescent Probe for Zinc(II), a 5-N,N-Dimethylaminosulfonyl -8-hydroquinoline-pendant Cyclen (Cyclen = 1,4,7,10-Tetraazacyclododecane)”
    S. Aoki, K. Sakurama, N. Matsuo, Y. Yamada, R. Takasawa, S. Tanuma, M. Shiro, K. Takeda, E. Kimura,
    Chem. Eur. J., 12, 9066–9080 (2006).
52. “Programmable Self-Assembly of Metal Ions in Artificial DNA”
    K. Tanaka, G. Clever, Y. Takezawa, Y. Yamada, C. Kaul, M. Shionoya, T. Carell,
    Nature Nanotech., 1, 190–194 (2006).
53. “Artificial Metallo–DNA: Structural Control and Discrete Metal Assembly”
    K. Tanaka, Y. Yamada, A. Tengeiji, T. Kato, N. Toyama, Y. Takezawa, M. Yori, M. Shiro, M. Shionoya
    Nucleic Acids Research Suppl., 3, 121–122 (2003).
54. “Formation of Silver(I)–Mediated DNA Duplex and Triplex through an Alternative Base Pair of Pyridine Nucleobases”
    K. Tanaka, Y. Yamada, M. Shionoya
    J. Am. Chem. Soc., 124, 8802–8803 (2002).
55. “Synthesis of A New Bis(ferrocenyl)ruthenacyclopentatriene Compound with A Significant Intermetal Electronic Communication”
    Y. Yamada, J. Mizutani, M. Kurihara, H. Nishihara
    J. Organomet. Chem., 637–639, 80–83 (2001).

著書・総説

1. “担持型金属錯体触媒によるメタン過酸化水素酸化”
   山田　泰之,
   メタンと二酸化炭素〜その触媒的科学変換技術の現状と展望〜（上田　渉監修）,
   第2部第1章第5項, p 94–107, シーエムシー・リサーチ(2023).
2. “メタンのC–H結合を効率良く活性化する金属オキソ種型人工酸化触媒の開発”
   山田　泰之,
   クリーンエネルギー誌, 5, Vo. 32, p 23–31 (2023).
3. “Direct Observation of Electrochemically Generated High Valent Iron-Oxo Species of m-Nitrido-Bridged Iron Phthalocyanine Dimer Deposited on Graphite Surface by Soft X-ray Absorption Spectroscopy”
   Yamada, Y.; Nagasaka, M.,
   UVSOR Activity Report 2022, p74, 2023.
4. “高効率なメタン酸化触媒を開発―2階建て構造で活性は天然酵素に匹敵―”
   山田　泰之,
   JST news, April, 14 (2023).
5. “Direct Observation of a High Valent Oxo Species of a m-Nitrido-Bridged Iron Phthalocyanine Dimer Deposited on a Graphite Surface in Aqueous Solution by Soft X-ray Absorption Spectroscopy”
   Yamada, T.; Nagasaka, M.,
   UVSOR Activity Report 2021, p115, 2022.
6. “XAFS Study of a High Valent Oxo Species of a m-Nitrido-Bridged Iron Phthalocyanine Dimer Deposited on a Graphite Surface”
   Yamada, T.; Nagasaka, M.,
   UVSOR Activity Report 2020, p97, 2021.
7. “Development of Functional Molecular Assemblies Based on Programmable Construction of Face-to-Face Assemblies of Metallo-Porphyrinoids”
   Yamada, Y., Tanaka, K.
   J. Incl. Phenom. Macrocycl. Chem., 96, 197-213, 2020. (Award Account for SHGCS Japan Award of Excellence 2019)
8. “μ-Nitridobis[29H,31H-phthalocyaninato(2-)-κN29,κN30,κN31,κN32]Darien（μ-nitrido-bridged iron phthalocyanine dimer）”
   山田　泰之、田中　健太郎
   錯体化合物辞典, p 361, 2019.
9. “Trinuclear Cu2+ complex of a multiply-interlocked (porphyrin)2/phthalocyanine assembly”
   山田　泰之、田中　健太郎
   錯体化合物辞典, p 231, 2019.
10. “NEXAFS Study of μ-Nitrido-Bridged Iron Phthalocyanine Dimer with Graphite Surface”
    Yamada, T.; Nagasaka, M.
    UVSOR Activity Report 2019, 113, 2019.
11. “超分子型ポルフィリン・フタロシアニンface-to-face分子組織のプログラム構築とその機能化”
    山田　泰之
    化学工業, in press, 2019.
12. “ポルフィリン・フタロシアニンスタッキング会合体のプログラム構築”
    山田　泰之
    化学と工業誌, 67, 1074–1075, 2014.
13. “Programmed arraying of metal complexes in a supramolecular system: Stacked assembly of porphyrin and phthalocyanine”
    Tanaka, K.; Yamada, Y.
    Spring-8 Research Frontiers, 68–69, 2013.
14. “pi-pi スタッキング相互作用と金属錯体形成が織りなす分子機能のハーモニー”
    山田　泰之、田中　健太郎,
    錯体化学会誌, 62, 12-20, 2013.
15. “光照射によって進行する二重結合化合物の化学反応”
    山田　泰之、青木　伸,
    化学と教育, 55, 84-87, 2007.

特許

1. “難分解性有機物の資源化を可能にする超強力酸化触媒調整方法”
   山田　泰之、田中　健太郎（国内特許登録番号：特許7303556、国際公開WO2019/203051）.
2. “酸化還元感受性化合物およびイソアロキサジン誘導体”
   青木　伸、山田　泰之（国内特許　JP2008239615 A 20081009）.

招待講演・依頼講演

（国際学会招待講演）

1. “Direct Observation of Elecrtrochemically Generated High-Valent Iron-Oxo Species That can be Utilized for CH₄ Oxidation Reaction”
   Yamada, Y. and Nagasaka. M.
   UVSOR–III+MAX IV International Workshop “Frontier of Soft X-ray Spectroscopy for Chemical Processes in Solutions”, (Okazaki, October 2–4, 2023)
2. “Development of Highly Potent Methane Oxidation Catalyst Based on Double-Decker-Type Iron Porphyrinoids”
   Yamada, Y.
   10^th Asian Biological Inorganic Chemistry Conference (ASBIC10), (Kobe, December 2, 2022)
3. “Highly Potent Methane Oxidation Catalyst Achieved by Close Stacking of Double-Decker-Type Iron Phthalocyanine Complex on Graphite Surface”
   Yamada, Y.
   International Congress on Pure & Applied Chemistry Kota Kinabalu 2022 (ICPAC KK 2022), (Sabah, November 24, 2022)
4. “Potent Methane Oxidation Catalyst Achieved by Close Stacking of Double-Decker-Type Iron Phthalocyanine Complex on Graphite Surface” 
   Yamada, Y.  
   8^th Asian Conference on Coordination Chemistry (ACCC8), (Taipei, August 8, 2022)
5. “Supramolecular Approach to Achieve Highly Reactive Catalyst for Direct C–H Activation of Methane”
   Yamada, Y.; Sugiura, T.; Morita, K.; Mihara, N.; Tanaka, K.,  
   Pacifichem 2021 “New challenge in interdisciplinary and multiscale supramolecular sciences”, (Honolulu, December 21, 2021)
6. “Supramolecular Approach towards potent molecule-based methane oxidation catalyst”
   Yamada, Y.
   The 4^th Workshop of the Reaction Infography (R–ing) Unit, (Nagoya, November 5, 2021)
7. “Supramolecular Approach to Increase the Catalytic Light Alkane Oxidation Activities of μ-Nitrido Bridged Iron Porphyrinoid Dimer”
   Yamada, Y.; Mihara, N.; Morita, K.; Tanaka, K.
   11th International Conference on Porphyrins & Phthalocyanines (ICPP-11), (Buffalo, June 29, 2021)
8. “Supramolecular Enhancement of Ethane Oxidation Activity of mu-Nitrido Bridged Iron Porphyrinoid Dimer”
   Yamada, Y.
   International Congress on Pure & Applied Chemistry (ICPAC) 2018, (Siem Reap, March 7, 2018)
9. “Structural Analysis of a Topologically Chiral Ladder [2]Catenane”
   Y. Yamada,
   International Symposium on Pure & Applied Chemistry (ISPAC) 2017, (Ho-Chi-Minh, June 8, 2017)
10. “Supramolecular Activation of Ethane Oxidation Catalyst”
    Yamada, Y.
    11th Japan-China Joint Symposium on Metal Cluster Compounds, (Nagoya, October 8, 2017)
11. “Discrete Cofacial Assemblies of Porphyrin and Phthalocyanine Connected through Flexible Linkages”
    Y. Yamada
    SPIRITS international symposium 3, (Kyoto, February 3, 2017)
12. “A Multiply Interlocked Assembly of Porphyrin and Phthalocyanine”
    Y. Yamada
    International Symposium on Pure & Applied Chemistry (ISPAC) 2016, (Kuching, August 16, 2016)
13. “Programmable construction of stacked arrays of porphyrins and phthalocyanines”
    Yamada, Y.
    Japan-China Joint Symposium on Functional Supramolecular Architectures, (Tianjin University, December 11, 2014)
14. “Design and synthesis of a fluorescent probe for the redox potential in vivo by using the redox property of flavin”
    Yamada, Y; Aoki, S.
    Asian International Symposium-Biofunctional Chemistry,Biochemistry (Kansai University, March 27, 2007)

（国内招待講演）

1. “高活性メタン酸化触媒創製に超分子化学の発想で挑む”
   山田　泰之
   第56回酸化反応討論会（2023年11月11日、名古屋）
2. “How to Utilize Supramolecular Methodology for Achieving Highly Potent Artificial Oxygenase”
   山田　泰之
   錯体化学会第73回討論会シンポジウム”Designer Metalloenzyme and Beyond”（2023年9月21日、水戸）
3. “担持型鉄錯体触媒によるメタン酸化〜超分子化学の発想に基づいて人工メタン酸化分子触媒の活性を天然酵素のレベルにまで高める〜”
   山田　泰之
   2022年度高難度選択酸化反応研究会シンポジウム（触媒学会主催、2023年1月20日、大岡山）
4. “分子組織化学の発想でつくる難分解性有機物資源化触媒”
   山田　泰之
   豊秋奨学会2022交流同窓会講演会（豊秋奨学会主催、2022年11月4日、名古屋）
5. “分子組織化学の発想でつくる超強力酸化触媒”
   山田　泰之
   アカデミックナイト（ナゴヤイノベーターズガレージ主催、2021年10月14日、名古屋）
6. “Supramolecular approach for creation of potent methane oxidation catalyst based on iron porphyrinoids”
   山田　泰之
   錯体化学会第69回討論会シンポジウム”Catalytic transformation of gaseous molecules”（2019年9月21日、名古屋）
7.  “ポルフィリノイドface-to-face分子組織のプログラム構築に基づく超強力メタン酸化触媒の創製”
   山田　泰之
   東京理科大学薬学部講演会　（2019年8月23日、野田）
8. “ポルフィリノイド金属錯体Face-to-Face型会合体のプログラム構築に基づく機能性分子開発”
   山田　泰之
   第17回ホストゲスト・超分子化学シンポジウム（2019年5月18日、金沢）
9. “分子組織化学を駆使してユニークな超分子触媒を創る”
   山田　泰之
   第31回生物無機夏期セミナー（2018年9月14日、蒲郡）

10. “ポルフィリン・フタロシアニンface-to-face型超分子会合体を利用した触媒開拓”
    山田　泰之
    北海道大学触媒科学研究所第408コロキウム（2018年1月15日、札幌）

11. “ダイナミックな構造変化が可能な多重カテナン型ポルフィリン・フタロシアニン会合体の構築”
    山田　泰之
    第66回高分子討論会（2017年9月21日、松山）
12. “ロタキサンで連結されたポルフィリン・フタロシアニンスタッキング分子〜構造から機能へ〜”
    山田　泰之
    錯体化学若手の会北陸支部勉強会（2015年11月21日、金沢）

13. “外部刺激応答型ポルフィリン・フタロシアニンアレイ”
    山田　泰之
    分子研研究会（2015年3月14日、岡崎）

14. “ポルフィリン・フタロシアニンスタッキング型アレイのプログラム構築”
    山田　泰之
    高分子学会　第8回超分子若手懇談会（2014年10月10日、加賀）

15. “スタッキング型分子アレイのプログラム構築”
    山田　泰之
    日本化学会　第94春季年会（2014年3月27日、名古屋）
16. “ロタキサン型ポルフィリン・フタロシアニンスタッキングアレイ”
    山田　泰之
    第2回エキゾチック自己組織化材料シンポジウム（2013年9月10日、名古屋）
17. “一次元金属錯体アレイの分子プログラミング法の開発”
    山田　泰之
    生体機能関連部会第25回若手フォーラム（2010年9月23日、大阪）
18. “フラビンを利用した超分子化学”
    山田　泰之
    名古屋市立大学薬学部講演会（2008年5月20日、名古屋）
19. “人工DNA光修復酵素の設計と合成”
    山田　泰之
    平成18年度若手研究者のためのセミナー（有機合成化学協会関東支部主催）（2006年10月28日、つくば）