NAKAYAMA Masanobu

写真a

Affiliation Department etc.

Department of Life Science and Applied Chemistry
Department of Life Science and Applied Chemistry

Title

Professor

Research Fields, Keywords

-

Graduating School

  •  
    -
    1997.03

    Tokyo Institute of Technology   Faculty of Engineering   Department of Chemical Engineering   Graduated

Graduate School

  •  
    -
    2004.03

    Tokyo Institute of Technology  Graduate School, Division of Science and Engineering  Department of Applied ChemistryDoctor's Course  Completed

  •  
    -
    1999.03

    Tokyo Institute of Technology  Graduate School, Division of Science and Engineering  Department of Chemical EngineeringMaster's Course  Completed

Degree

  • Tokyo Institute of Technology -  Doctor (Engineering)

Field of expertise (Grants-in-aid for Scientific Research classification)

  • Inorganic materials/Physical properties

  • Basic chemistry

 

Papers

  • Catalytic mechanism of spinel oxides for oxidative electrolyte decomposition in Mg rechargeable batteries

    J. Han, S. Yagi, H. Takeuchi, M. Nakayama, T. ichitsubo

    J. Mater. Chem. A   in press   2021.11  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Synthesis and structural characterization of U-phase, [3Ca2Al(OH)6][Na(H2O)6(SO4)2·6H2O] layered double hydroxide

    D. Urushihara, T. Asaka, M. Harada, S. Kondo, M. Nakayama, M. Ogino, E. Owaki, K. Fukuda

    J. Solid State Chem.   in press   2021.11  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Molecular Dynamics Simulation of Li-Ion Conduction at Grain Boundaries in NASICON-Type LiZr2(PO4)3 Solid Electrolytes

    Koki Nakano, Naoto Tanibata, Hayami Takeda, Ryo Kobayashi, Masanobu Nakayama, Naoki Watanabe

    The Journal of Physical Chemistry C ( American Chemical Society (ACS) )  125 ( 43 ) 23604 - 23612   2021.11  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Exploring the diffusion mechanism of Li ions in different modulated arrangements of La(1-X)/3LixNbO3 with fitted force fields obtained via a metaheuristic algorithm

    Zijian Yang, Robyn E. Ward, Naoto Tanibata, Hayami Takeda, Masanobu Nakayama, Ryo Kobayashi

    SOLID STATE IONICS ( ELSEVIER )  366   115662   2021.08  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Promoting Reversible Cathode Reactions in Magnesium Rechargeable Batteries Using Metastable Cubic MgMn2O4 Spinel Nanoparticles

    H. Kobayashi, K. Samukawa, M. Nakayama, T. Mandai, I. Honma

    ACS Applied Nano Materials   8   8328 - 8333   2021.07  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • First-Principles DFT Study on Inverse Ruddlesden–Popper Tetragonal Compounds as Solid Electrolytes for All-Solid-State Li+-Ion Batteries

    R. Jalem, Y. Tateyama, K. Takada, M. Nakayama

    Chem. Mater.   33 ( 15 ) 5859 - 5871   2021.03  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • First-principles study of the morphology and surface structure of LaCoO3 and La0.5Sr0.5Fe0.5Co0.5O3 perovskites as air electrodes for solid oxide fuel cells

    Masanobu Nakayama, Katsuya Nishii, Kentaro Watanabe, Naoto Tanibata, Hayami Takeda, Takanori Itoh, Toru Asaka

    Science and Technology of Advanced Materials   1 ( 1 ) 24 - 33   2021.03  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Ultrafast charge transfer at the electrode-electrolyte interface via an artificial dielectric layer

    T. Teranishi, K. Kozai, S. Yasuhara, S. Yasui, N. Ishida, K. Ishida, M. Nakayama, A. Kishimoto

    J. Power Sources   494   229710   2021.03  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Structure Design of Long‐Life Spinel‐Oxide Cathode Materials for Magnesium Rechargeable Batteries

    K. Shimokawa, T. Atsumi, N. L. Okamoto, T. Kawaguchi, S. Imashuku, K. Wagatsuma, M. Nakayama, K. Kanamura, T. Ichitsubo

    Adv. Mater.   33   2007439   2021.01  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Structural Transition with a Sharp Change in the Electrical Resistivity and Spin−Orbit Mott Insulating State in a Rhenium Oxide, Sr3Re2O9

    D. Urushihara, T. Asaka, K. Fukuda, M. Nakayama, Y. Nakahira, C. Moriyoshi, Y. Kuroiwa, O. K. Forslund, N. Matsubara, M. Mansson, K. Papadoppoulos, Y. Sassa, K. Ohishi, J. Sugiyama, Y. Matsushita, H. Sakurai

    Inorg. Chem.   60 ( 2 ) 507 - 514   2021.01  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

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Books

  • Lithium ion rechargeable batteires; Materials, Technology, and New Applications

    (Part: Multiple Authorship )

    Wiley-VCH  2009.04 ISBN: 9783527319831

Review Papers

  • Materials informatics for discovery of ion conductive ceramics for batteries

    Masanobu Nakayama

    J. Ceram. Soc. Jpn. ( 日本セラミックス協会 )  129 ( 6 ) 286 - 291   2021.04

    Introduction and explanation (scientific journal)   Single Author