KURITA Noriaki

写真a

Affiliation Department etc.

Department of Physical Science and Engineering
Department of Physical Science and Engineering

Title

Associate Professor

Mail Address

E-mail address

Graduating School

  •  
    -
    1985.03

    Nagoya Institute of Technology   Faculty of Engineering   Graduated

Graduate School

  •  
    -
    1987.03

    Nagoya Institute of Technology  Graduate School, Division of Engineering  Master's Course  Completed

Degree

  •  -  Doctor of Engineering

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

  • Inorganic materials/Physical properties

  • Metal making/Resorce production engineering

 

Research Career

  • Study on the gas sensor for the molten metal

    Individual   (not selected)  

    Project Year:  2010.04  -  Now

  • The study of thermodynamics properties of metal-hydrogen system

    Individual   (not selected)  

    Project Year:   - 

  • The study of conduction mechanism of proton conductive solid electrolyte

    Individual   (not selected)  

    Project Year:   - 

Thesis for a degree

  • The electrochmical properties of high-temperature proton conducting silod electrolyte, CaZr0.9In0.1O3-δ and its applications to the metal chemistry at elevated temperatures

     

      2002.03  [Refereed]

    8   1

Papers

  • Development of Electromotive-Force Type Hydrogen Sensor for Copper Melting Process

    Noriaki Kurita, et al.

    J. Jpn. Inst. Copper   53 ( 1 ) 171 - 176   2014.08  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Oxygen liberation from stabilized zirconia upon changing DC polarization condition

    Kurita, Kobayashi, Heda, Fukatsu

    High Temperature Materials and Processes   31   439 - 449   2012.10  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Properties of electric conductivity in Y-doped CaZrO3

    J. Bao, Y. Okuyama, Z. Shi, N. Fukatsu, N. Kurita

    Materials Transactions   53   973 - 979   2012.05  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Determination of the maximum solubility of hydrogen in α-alumina bu DC polarization method

    Yuji Okuyama, Noriaki Kurita, Daisuke Sato, Hisashi Douhara, and Norihiko Fukatsu

    Solid State Ionics   213   92 - 97   2012.04  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Electromotiveforce of the high-temperature concenyration cell using Al-doped CaZrO3 as the Electrolyte

    J. Bao, H. Ohno, Y. Okuyama, N. Fukatsu, N. Kurita

    Materials Transactions   53   92 - 97   2012.04  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • The effect of annealing on the proton conductivity of Mg-doped α-Al2O3

    Yuji Okuyama, Noriaki Kurita, Keiichi Katayama, and Norihiko Fukatsu

    Ionics   18 ( 1-2 ) 85 - 90   2012.01  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • The electromotive force of a hydrogen and/or oxygen concentration cell using 10 mol% In-doped CaZrO3 as the solid electrolyte

    Noriaki Kurita, Kazumi Ootake, and Norihiko Fukatsu

    Journal of the electrochmical society   158 ( 6 ) B667 - B674   2011.06  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Dissolution of hydrogen into LiTaO3

      75 ( 4 ) 229 - 234   2011.04  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Proton conduction in Al-doped CaZrO3

    Bao, Ohno, Kurita, Okuyama, Fukatsu

    Electrochemica Acta   56   1062 - 1068   2011.01  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

  • Measurements of the electronic conductivities of In-doped CaZrO3 by dc polarization technique

    Kurita, Xiong, Imai, Fukatsu

    Ionics   16   787 - 795   2010.04  [Refereed]

    Research paper (scientific journal)   Multiple Authorship

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