@article{CTT100882693,
  author = {takaya ogawa and Gopinathan Anilkumar and takanori tamaki and hidenori ohashi and Takeo Yamaguchi},
  title = {Low humidity dependence of proton conductivity in modified zirconium (IV)-hydroxy ethylidene diphosphonates},
  journal = {Materials Chemistry Frontiers},
  year = 2022,
}

@article{CTT100862006,
  author = {Ogawa Takaya and Hidenori Ohashi and Gopinathan M. Anilkumar and Takanori Tamaki and Takeo Yamaguchi},
  title = {Suitable acid groups and density in electrolytes to facilitate proton conduction},
  journal = {Physical Chemistry Chemical Physics},
  year = 2021,
}

@article{CTT100800999,
  author = {Ogawa Takaya and Hidenori Ohashi and Takanori Tamaki and Takeo Yamaguchi},
  title = {Proton Diffusion Facilitated by Indirect Interactions Between Proton Donors Through Several Hydrogen Bonds},
  journal = {Chemical Physics Letters},
  year = 2019,
}

@article{CTT100823695,
  author = {T. Ogawa and M. Takeuchi and Y. Kajikawa},
  title = {Analysis of trends and emerging technologies in water electrolysis research based on a computational method: a comparison with fuel cell research},
  journal = {Sustainability},
  year = 2018,
}

@article{CTT100823696,
  author = {T. Ogawa and M. Takeuchi and Y. Kajikawa},
  title = {Comprehensive analysis of trends and emerging technologies in all types of fuel cells based on a computational method},
  journal = {Sustainability},
  year = 2018,
}

@article{CTT100823935,
  author = {T. Ogawa and K. Iyoki and T. Fukushima and Y. Kajikawa},
  title = {Landscape of research areas for zeolites and metal-organic frameworks: computational detection of emerging research domains},
  journal = {Materials},
  year = 2017,
}

@article{CTT100734073,
  author = {Ogawa Takaya and Takanori Tamaki and Takeo Yamaguchi},
  title = {Proton Conductivity of Organic-Inorganic Electrolyte for Polymer Electrolyte Fuel Cell},
  journal = {Chemistry Letters},
  year = 2017,
}

@article{CTT100675745,
  author = {Ogawa Takaya and Kazuhiro Kamiguchi and Takanori Tamaki and Hideto Imai and Takeo Yamaguchi},
  title = {Differentiating Grotthuss Proton Conduction Mechanisms by Nuclear Magnetic Resonance Spectroscopic Analysis of Frozen Samples},
  journal = {Analytical Chemistry},
  year = 2014,
}

@article{CTT100781977,
  author = {Takaya Ogawa and Takashi Aonuma and Takanori Tamaki and Hidenori Ohashi and Hiroshi Ushiyama and Koichi Yamashita and Takeo Yamaguchi},
  title = {The proton conduction mechanism in a material consisting of packed acids},
  journal = {Chemical Science},
  year = 2014,
}

@article{CTT100781979,
  author = {Takaya Ogawa and Hidenori Ohashi and Takanori Tamaki and Takeo Yamaguchi},
  title = {Non-humidified proton conduction between a Lewis acid–base pair},
  journal = {Physical Chemistry Chemical Physics},
  year = 2013,
}

@article{CTT100657269,
  author = {小川敬也 and 梶川裕矢},
  title = {論文・特許情報を用いた固体高分子形燃料電池における萌芽・有望領域の抽出},
  journal = {燃料電池},
  year = 2013,
}

@article{CTT100624054,
  author = {Takaya Ogawa and Hiroshi Ushiyama and * Ju-Myeung Lee and Takeo Yamaguchi and Koichi Yamashita},
  title = {Theoretical Studies on Proton Transfer among a High Density of Acid Groups: Surface of Zirconium Phosphate with Adsorbed Water Molecules},
  journal = {J. Phys. Chem. C.},
  year = 2011,
}

@article{CTT100624064,
  author = {Takaya Ogawa and Hiroshi Ushiyama and Koichi Yamashita and Ju-Myeung Lee and Takeo Yamaguchi},
  title = {Theoretical Studies of the Mechanism of Proton Transfer at the Surface of Zirconium Phosphate},
  journal = {Chemistry Letters},
  year = 2010,
}

@inproceedings{CTT100817526,
  author = {小林靖和 and 小川敬也 and 和田裕之 and 溝口拓 and 北野政明 and 細野秀雄},
  title = {気相レーザーアブレーション法を用いたアンモニア合成に向けたYRu2金属間化合物ナノ微粒子の合成},
  booktitle = {},
  year = 2018,
}

@inproceedings{CTT100782409,
  author = {Takaya Ogawa and Takanori Tamaki and Hidenori Ohashi and Takeo Yamaguchi},
  title = {The rational design for a proton conducting membrane with low dependency on humidity},
  booktitle = {},
  year = 2017,
}

@inproceedings{CTT100663251,
  author = {小川敬也 and 梶川裕矢},
  title = {論文・特許情報を用いた燃料電池における萌芽・有望領域の抽出},
  booktitle = {},
  year = 2013,
}

@misc{CTT100690039,
  author = {小川敬也},
  title = {酸高密度構造における高プロトン伝導性の発現と伝導機構の解明},
  year = 2014,
}

@misc{CTT100667403,
  author = {小川敬也},
  title = {酸高密度構造における高プロトン伝導性の発現と伝導機構の解明},
  year = 2014,
}

@misc{CTT100691054,
  author = {小川敬也},
  title = {酸高密度構造における高プロトン伝導性の発現と伝導機構の解明},
  year = 2014,
}

@misc{CTT100690119,
  author = {小川敬也},
  title = {酸高密度構造における高プロトン伝導性の発現と伝導機構の解明},
  year = 2014,
}

@misc{CTT100808485,
  author = {細野秀雄 and 横山壽治 and 北野政明 and 溝口拓 and 小川敬也},
  title = {ラーベス相金属間化合物、金属間化合物を用いた触媒、及びアンモニア製造方法},
  howpublished = {登録特許},
  year = 2020,
  month  = {},
  note   = {特願2017-539977(2016/09/15), 再表2017/047709(2018/08/09), 特許第6737455号(2020/07/20)}
}


@misc{CTT100710324,
  author = {山口猛央 and 大橋秀伯 and 田巻孝敬 and 小川敬也 and G.M. Anilkumar},
  title = {プロトン伝導性材料及びその製造方法、並びに燃料電池の電解質膜},
  howpublished = {公開特許},
  year = 2016,
  month  = {},
  note   = {特願2014-192831(2014/09/22), 特開2016-064987(2016/04/28)}
}




@phdthesis{CTT100690039,
  author = {小川敬也},
  title = {酸高密度構造における高プロトン伝導性の発現と伝導機構の解明},
  school = {東京工業大学},
  year = 2014,
}

@phdthesis{CTT100667403,
  author = {小川敬也},
  title = {酸高密度構造における高プロトン伝導性の発現と伝導機構の解明},
  school = {東京工業大学},
  year = 2014,
}

@phdthesis{CTT100691054,
  author = {小川敬也},
  title = {酸高密度構造における高プロトン伝導性の発現と伝導機構の解明},
  school = {東京工業大学},
  year = 2014,
}

@phdthesis{CTT100690119,
  author = {小川敬也},
  title = {酸高密度構造における高プロトン伝導性の発現と伝導機構の解明},
  school = {東京工業大学},
  year = 2014,
}