Research Associate/Assistant Professor,
Takashi Yamada (山田 剛司(やまだ たかし))

Personal Information(略歴)/ List of Publication(論文リスト) /
Research Funds(研究助成) / Awards(受賞など) / Collaborators (リンク) 
Last Update October, 2022 (最終更新日2022年10月)

Personal Information(略歴)

See Also Researcher's Profile Page by OSAKA University

Name: Takashi Yamada,
Place of Birth: Iida city, Nagano Pref., JAPAN
Nationality: Japanese

Current Job status and Contact Address:
Research Associate /Assistant Professor
Department of Chemistry, Graduate School of Science, Osaka University

1-1 Machikaneyama,Toyonaka,Osaka, 560-0043, JAPAN
tyamada ***at***

Tel: +81-6-6850-5401/ Fax:+81-6-6850-5403


1994-1997 Iida High school, Iida city, Nagano Pref., Japan
1997-2001 Faculty of Science, Kyoto University, Kyoto, Japan.
2001-2003 Department of Chemistry, Graduate School of Science, Kyoto University, Kyoto, Japan, M.Sci., in Chemistry.

2003-2006 Department of Chemistry, Graduate School of Science, Kyoto University, Kyoto, Japan, Dr.Sci., in Chemistry
Supervised by Professors M. Nishijima. T. Aruga, H. Okuyama in Surface Chemistry Laboratory

Scientific Experience:

2006-2021 Research Associate/Assistant Professor (Prof. T. Munakata’s group)
2021-Now Research Associate/Assistant Professor (Prof. T. Matsumoto’s group)

Department of Chemistry, Graduate School of Science, Osaka University


大阪大学 研究者総覧のページ 

長野県 飯田市出身
1997.3(H09.3) 長野県飯田高等学校卒(*)
2001.3(H13.3) 京都大学理学部卒
2003.3(H15.3) 京都大学大学院理学研究科化学専攻修士課程修了
2006.3(H18.3) 京都大学大学院理学研究科化学専攻博士課程修了 表面化学研究室
(*履歴書用:自分のための覚書) 長野県の県立高校は条例で決まっていて県立高校であっても正式名称では「立」を付けない。
学位 博士(理学) 「固体表面における水分子の吸着・反応・凝集」 2006.3.23付

2006.4(H18.3) 大阪大学大学院理学研究科化学専攻助手
2007.4(H19.3) 大阪大学大学院理学研究科化学専攻助教(上記職名変更)
2011.2-2011.4(H23) Fritz-Haber Institut Berlin, (Dr. Julia Staehler Group
Department of Physics, Jena University, (Prof. Dr. Torsten Fritz Group)






List of Publications(論文リスト)

---- LINK-to-Data-base (各種データベースへのリンク)ーーーーーーーーーーーーー

Reseacher Profile by Osaka University

Reseacher ID:Q-5590-2017

ORCID 0000-0001-9419-5555


KAKENHI-JSPS research fund data base


[47] TBA
N. Murase, T. Tawa, H. S. Kato, M. Akai, and T. Yamada*
in preparation (2022)

[46] TBA
Y. Nakayama, T. Yamada, H. Ohyama, and T. Matsumoto
submitted (2022)

[45] TBA
H. Li, M. Shibuta, T. Yamada, H. Hojo, H. S. Kato, T. Teranishi, and M. Sakamoto
submitted (2022).

[44] Self-Assembly of the Heterogeneous Bilayers Stratified by Au-S and Hydrogen Bonds on Au(111)
R. Muneyasu, T. Yamada, M. Akai and H. S. Kato*
Physical Chemistry Chemical Physics, 24, 22222-22230 (2022).

[43] Formation and Structural Characterization of Two-dimensional Wetting Water Layer on Graphite (0001)
T. Yamada*, T. Tawa, N. Murase and H. S. Kato
The Journal of Chemical Physics, 157, 074702 (2022).

[42] Impact of molecular distribution on unoccupied image potential states of PbPc/HOPG surfaces (Invited Paper)
N. Kawakita, T. Yamada*, and T. Munakata*
Chemical Physics Letters, 799, 139625 (2022).

[41] Band Engineering-Tuned Localized Surface Plasmon Resonance in Diverse-Phased Cu2 SySe1 Nanocrystals
H. Li, M. Shibuta, T. Yamada, H. Hojo, H.S. Kato, T. Teranishi, and M. Sakamoto*
The Journal of Physical Chemistry C ,126, 8107-8112 (2022).

[40] Revisit of XPS Studies of Supersonic O2 Molecular Adsorption on Cu(111): Copper Oxides, K. Hayashida, Y. Tsuda, T. Yamada, A. Yoshigoe, and M. Okada*,
ACS Omega, 6, 26814-26820 (2021).

[39] Accessing the Conduction Band Dispersion in CH3NH3PbI3 Single Crystals
Jinpeng Yang*, Haruki Sato, Hibiki Orio, Xianjie Liu, Mats Fahlman, Nobuo Ueno, Hiroyuki Yoshida*, Takashi Yamada*, and Satoshi Kera*
The Journal of Physical Chemistry Letters 12, 3773-3778 (2021).

[38] Lateral Distribution of Optical Excitation at Boundaries around Rubrene Islands Visualized by Microspot Two-Photon Photoemission Spectroscopy
D. Okaue, R. Hayashi, K. Wakayama, N. Ito, T. Munakata, and T. Yamada*,
Surface Science,709, 121847 (2021).

[37] The Role of Initial and Final States in Molecular Spectroscopies ? the Example of Tetraphenyldibenzoperiflanthene (DBP) on Graphite
Tino Kirchhuebel, Satoshi Kera, Toshiaki Munakata, Nobuo Ueno, Ryo Shiraishi, Takuma Yamaguchi, Keiichirou Yonezawa, Takahiro Ueba, Fabio Bussolotti, Jinpeng Yang, Takashi Yamada, Ryosuke Mori, Shogo Kunieda, Tobias Humpfner, Marco Gruenewald, Roman Forker, and Torsten Fritz*
The Journal of Physical Chemistry C ,124, 19622-19638 (2020).

[36] Structural Characterization and Photoluminescence Properties of Perylene Monolayer on Graphite Surface
T. Yamada*, K. Araragi, H. S Kato and T. Munakata
The Journal of Physical Chemistry C 124, 23, 12485?12491(2020)

[35] Formation and Regulation of Unoccupied Hybridized Band with Image Potential States at Perylene/Graphite Interface
T. Yamada*, N. Ito, N. Kawakita, H. S Kato and T. Munakata
The Journal of Chemical Physics 151, 224703 (2019).

[34] Deviation from Point Dipole Analysis for Exciton Quenching in Quaterthiophene-Terminated Self-Assembled Monolayers on Au(111)
Y. Osumi,T. Yamada, Y. Ie, H. S. Kato*
The Journal of Physical Chemistry C , 123, 16127-16136 (2019).

[33] Hybridization of Unoccupied Molecular Orbital with Image Potential State at Lead Phthalocyanine/Graphite Interface (Invited Paper)
T. Yamada*, N. Kawakita, C. Okui and T. Munakata*
J. Phys. Cond. Matt.,31, 044004 (2019).

[32] (Review Article)Spectroscopic and Microscopic Investigations of Organic Ultrathin Films: Correlation between Geometrical Structures and Unoccupied Electronic States
T. Yamada* and T. Munakata
Progress in Surface Science, 93, 108-130 (2018).

[31] (総説)「有機超薄膜の非占有準位・分光イメージングとナノスケール構造観察」
山田剛司*, 分子科学会誌 (Award Accounts )
Molecular Science Vol.12 p. A0098 (2018).


[30]Direct Visualization of Diffuse Unoccupied Molecular Orbitals at a Rubrene/Graphite Interface
T. Yamada*, M. Kinoshita, K. Araragi, Y. Watanabe, T. Ueba, H. S. Kato, and T. Munakata,
Phys. Chem. Chem .Phys. 20,147415-17422 (2018).

[29]Influence of molecular distortion on the exciton quenching for quaterthiophene-terminated self-assembled monolayers on Au(111)
H. S. Kato*, Y. Murakami, R. Saitoh, Y. Osumi, D. Okaue, Y. Kiriyama, T. Ueba, T. Yamada, Y. Ie, Y. Aso, T. Munakata,
Surface Science, 669, 160-168 (2018).

[28]Metastable phase of lead phthalocyanine film on graphite: correlation between geometrical and electronic structures
N. Kawakita, T. Yamada, M. Meissner, R. Forker, T. Fritz, and T. Munakata*
Phys. Rev. B 95, 045419 (2017).

[27]Electronic excitation and relaxation dynamics of the LUMO-derived level in rubrene thin films on graphite
T. Ueba, T. Yamada, and T. Munakata*
J. Chem. Phys. 145, 214703 (2016).

[26]Naphthalene’s Six Shades on Graphite: A Detailed Study on the Polymorphism of an Apparently Simple System
F. Sojka, M. Meissner, T. Yamada, T. Munakata, R. Forker, and T. Fritz*
J. Phys. Chem. C 120, 22972 (2016).

[25] Unoccupied electronic structure and molecular orientation of rubrene; from evaporated films to single crystals
T. Ueba, J. Park, R. Terawaki, Y. Watanabe, T. Yamada, T. Munakata*
Surf. Sci. 649, 7(2016).

[24] Optical observation of different conformational isomers in rubrene ultra-thin molecular films on epitaxial graphene
C. Udhardt, R. Forker, M. Gruenewald, Y. Watanabe, T. Yamada, T. Ueba, T. Munakata, and T. Fritz*
Thin Solid Films 598, 271 (2016).

[23] Microspot two-photon photoemission spectroscopy for CuPc film on HOPG
T. Yamada, R. Yamamoto, T. Munakata*
J. Elec. Spec. Rel. Pheno.204,145 (2015).

[22] Decay of the Exciton in Quaterthiophene-Terminated Alkanethiolate Self-Assembled Monolayers on Au(111)
H. S. Kato, Y. Murakami, Yi Kiriyama, R. Saitoh, T. Ueba, T. Yamada, Y. Ie, Y. Aso, and T. Munakata
J. Phys. Chem. C, 119, 7400 (2015).

[21] The Complex Polymorphism and Thermodynamic Behavior of a Seemingly Simple System: Naphthalene on Cu(111)
R. Forker*, J. Peuker, M. Meissner, F. Sojka, T. Ueba, T. Yamada, H. S. Kato, T. Munakata, and T. Fritz*,
Langmuir, 30, 14163 (2014).

[20] Spectroscopic Investigation of Unoccupied States in Nano- and Macroscopic Scale: Naphthalene Overlayers on Highly Oriented Pyrolytic Graphite Studied by Combination of Scanning Tunneling Microscopy and Two-Photon Photoemission
T. Yamada*, M. Isobe, M. Shibuta, H. S. Kato and T. Munakata
J. Phys. Chem. C 118, 1035 (2014).

[19] Diffuse Unoccupied Molecular Orbital of Rubrene Causing Image-Potential State Mediated Excitation
T. Ueba , R. Terawaki , T. Morikawa , Y. Kitagawa , M. Okumura , T. Yamada , H. S. Kato , and T. Munakata*
J. Phys. Chem. C 117, 20098 (2013).

[18] Growth and Adsorption Geometry of Naphthalene Overlayers on HOPG Studied byLow-Temperature Scanning Tunneling Microscopy
T. Yamada*, Y. Takano, M. Isobe, K. Miyakubo and T. Munakata

Chem. Phys. Lett. 546, 136 (2012),

[17] Dispersions of image potential states on surfaces of clean graphite and lead phthalocyanine film
R. Yamamoto, T. Yamada, M. Taguchi, K. Miyakubo, H. S. Kato, T. Munakata*
Phys. Chem. Chem. Phys,14,9601 (2012).

[16] Image Potential State Mediated Excitation at RubrenAe/Graphite Interface
J. Park, T. Ueba, R. Terawaki, T. Yamada, H. S. Kato, and T. Munakata*
J. Phys. Chem. C 116, 5821 (2012).

[15] Lateral inhomogeneity of unoccupied states for PbPc films
R. Yamamoto, I. Yamamoto, M. Mikamori, T. Yamada, K. Miyakubo, and T.Munakata*
Surf.Sci. 605, 982 (2011).

[14] Angle- and Time-Resolved Two-Photon Photoemission Spectroscopy for Unoccupied Levels of Lead Phthalocyanine Film
M. Shibuta, K. Miyakubo, T. Yamada, and T.i Munakata*
J. Phys. Chem. C 115, 19269 (2011).

[13] Novel Growth of Naphthalene Overlayer on Cu(111) Studied by STM, LEED and 2PPE
T. Yamada*, M. Shibuta, Y. Ami, Y. Takano, A. Nonaka, K. Miyakubo and T. Munakata
J. Phys. Chem. C, 114, 13334 (2010).

[12] Resonant effects on two-photon photoemission spectroscopy: Linewidths and intensities of occupied and unoccupied features for lead phthalocyanine films on graphite
M. Shibuta, K. Yamamoto, K. Miyakubo, T. Yamada, and T. Munakata
Phys. Rev. B 81, 115426 (2010).

[11] Vibratioally resolved two-photon photoemission spectroscopy for lead phthalocyanine film on graphite
M. Shibuta, K. Yamamoto, K. Miyakubo, T. Yamada, and T. Munakata*
Phys. Rev. B 80, 113310 (2009)

[10] High precision sample stage for photoemission microscopy of organic films
I. Yamamoto, N. Matuura, K. Miyakubo, T. Yamada and T. Munakata*
J. Electron Spectrosc.Relat.Phenom. 174, 131 (2009)

[9] Imaging of electronic structure of lead phthalocyanine films studied by combined use of PEEM and Micro-UPS.
I. Yamamoto, N. Matsuura, M. Mikamori, R. Yamamoto, T. Yamada, K. Miyakubo, N. Ueno, T. Munakata*
Surf. Sci., 602, 2232-2237 (2008).

Resonant two-photon photoemission study on electronically exited states at an interface of lead phthalocyanine (PbPc)/graphite
I. Yamamoto, M. Mikamori, R. Yamamoto, T. Yamada, K. Miyakubo, N. Ueno, and T.Munakata*
Phys. Rev. B 77, 115404 (2008)

[7] One- and two-photon photoemission microspectroscopy for organic films
T. Munakata*, M. Shibuta, M. Mikamori, T. Yamada, K. Miyakubo, T. Sugiyama, Y. Sonoda.
Proceedings of SPIE 6325, 63250M (2006).

[6] Anisotropic water chain growth on Cu(110) observed with scanning tunneling microscopy
T. Yamada, S. Tamamori, H. Okuyama* and T. Aruga
Phys. Rev. Lett. 96, 036105 (2006).

[5] Cu(110)表面上に形成された水一次元鎖のSTM観察
山田 剛司, 玉森 正多, 奥山 弘, 有賀 哲也
表面科学, Journal of The Surface Science Society of Japan 27(8) 455 - 460 (2006).

[4] Dihydride formation in the reaction of water with Si(111)-(7×7)

T. Yamada, Y. Ohtsuka, H. Okuyama* and T. Aruga
Phys. Rev. B 72, 233306 (2005).

[3] Imaging and manipulation of initial oxidation product on Si(111)-(7×7)
H. Okuyama*,T. Yamada and T. Aruga

Jpn. J. Appl. Phys. 44, 5363 (2005).

[2] Vibrational spectroscopy of crystalline multilayer ice: Surface modes in the intermolecular - vibration region
T. Yamada, H. Okuyama, T. Aruga, and M. Nishijima*
J. Phys. Chem. B107, 13962 (2003). 

[1] Surface optical modes of ice detected by high resolution electron energy loss spectroscopy
H. Okuyama,T. Yamada, S. Thachepan, T. Aruga and M. Nishijima*
Surf. Sci, 515, L499 (2002).

Research Funds(研究助成)


Database of Grant-In-Aid for Scientific Research by MEXT

2021.10-2023.3 研究助成 村田学術振興財団 (The Murata Science Foundation)
2018.4-2019.3 コニカミノルタ科学技術振興財団
2017.9-2019.3 研究助成 村田学術振興財団 (The Murata Science Foundation)
2017.7-2021.3 基盤研究(C)、科研費 (特設分野研究:遷移状態制御)
2016.3-2019.3 基盤研究(C)、科研費
2014.9-2016.3 基礎科学研究助成 住友財団 (The Sumitomo Foundation)
2012.4-2015.3 挑戦的萌芽研究、科研費
2012.4-2015.3 若手研究(A)、科研費
2011.4-2012.4 学内競争的資金(チャレンジ研究費)
2010.7-2011.3 日本学術振興会ITPプログラムによる旅費援助(ドイツ(長期)&クロアチア(短期))
2008.4-2011.3 若手研究(B)、科研費

2020.4-2023.4 基盤研究(B)、科研費(代表:加藤先生)
2010.4-2013.4 基盤研究(B)、科研費(代表:宗像先生) 
2006.4-2010.4 特定領域研究、科研費(代表:宗像先生)



[1] コニカミノルタ画像科学奨励賞(2018年2月)
Research Awards for Young Scientist, Konica-Minolta Science andTechnology Foundation,Feb. 2018

[2] 第10回分子科学会奨励賞(2017年9月)
Research Awards for Young Scientist, Japan Society for Molecular Science, Sep. 2017

[3] 大阪大学総長奨励賞 2013年8月 
Presidential Awards for Encouragement in Research
, Osaka University, Aug. 2013

[4] 第5回分子科学討論会 分子科学会優秀講演賞 (2011年9月)
「ナフタレン薄膜の2 光子光電子分光とSTM による局所電子状態計測」
Best Oral Presentation Awards, Japan Society for Molecular Science, Sep. 2011
“Local and Global Electronic Spectroscopy of Unoccupied States: Naphthalene on HOPG Studied by the Combination of 2PPE and STM”)

Collaborators (共同研究先リンク)
大阪大学大学院理学研究科 松本卓也先生
大阪大学大学院理学研究科 岡田美智雄先生
分子科学研究所 解良聡先生
千葉大学 工学研究科 吉田弘幸先生
京都大学 化学研究所 坂本雅典先生
大阪市立大学大学院 工学研究科 渋田昌弘先生
イエーナ大学(ドイツ) 物理学科 Torsten Fritz先生

連絡先 〒560-0043  大阪府豊中市待兼山町1-1 大阪大学 理学研究科B棟217号室 
TEL 06-6850-5791(学生居室) FAX 06-6850-5779(研究室共通)