@book{CTT100836321,
  author = {Tomoki Kanazawa and Kazuhiko Maeda},
  title = {Chapter 2: Photochemical synthesis of nanoscale multicomponent metal species},
  publisher = {Elsevier},
  year = 2020,
}

@article{CTT100791954,
  author = {Akinobu Nakada and Shunta Nishioka and Junie Vequizo and Kanemichi Muraoka and Tomoki Kanazawa and Akira Yamakata and Shunsuke Nozawa and Hiromu Kumagai and Shin-ichi Adachi and OSAMU ISHITANI and Kazuhiko Maeda},
  title = {Solar-driven Z-scheme water splitting using tantalum/nitrogen co-doped rutile titania nanorod as an oxygen evolution photocatalyst},
  journal = {Journal of Materials Chemistry A},
  year = 2017,
}

@article{CTT100791955,
  author = {Kazuhiko Maeda and Koki Ishimaki and Megumi Okazaki and Tomoki Kanazawa and Daling Lu and Shunsuke Nozawa and Hideki Kato and Masato Kakihana},
  title = {Cobalt Oxide Nanoclusters on Rutile Titania as Bifunctional Units for Water Oxidation Catalysis and Visible Light Absorption: Understanding the Structure-Activity Relationship},
  journal = {ACS Applied Materials & Interfaces},
  year = 2017,
}

@article{CTT100712143,
  author = {Cho, Young-Jin and Moon, Gun-Hee and Tomoki Kanazawa and Kazuhiko Maeda and Choi, Wonyong},
  title = {Selective dual-purpose photocatalysis for simultaneous H2 evolution and mineralization of organic compounds enabled by a Cr2O3 barrier layer coated on Rh/SrTiO3.},
  journal = {Chemical communications (Cambridge, England)},
  year = 2016,
}

@article{CTT100747501,
  author = {Tomoki Kanazawa and Daling Lu and Kazuhiko Maeda},
  title = {Photochemical Synthesis of Fe(III)-Cr(III) Mixed Oxide Nanoparticles on Strontium Titanate Powder and Their Application as Water Oxidation Cocatalysts},
  journal = {Chemistry Letters},
  year = 2016,
}

@article{CTT100747485,
  author = {Tomoki Kanazawa and Kazuhiko Maeda},
  title = {Light-Induced Synthesis of Heterojunctioned Nanoparticles on a Semiconductor as Durable Cocatalysts for Hydrogen Evolution},
  journal = {ACS Applied Materials & Interfaces},
  year = 2016,
}

@misc{CTT100818447,
  author = {金澤知器},
  title = {光触媒的水分解反応の促進を指向した新規助触媒の開発},
  year = 2020,
}

@misc{CTT100818451,
  author = {金澤 知器},
  title = {光触媒的水分解反応の促進を指向した新規助触媒の開発},
  year = 2020,
}

@misc{CTT100818453,
  author = {金澤 知器},
  title = {光触媒的水分解反応の促進を指向した新規助触媒の開発},
  year = 2020,
}

@misc{CTT100857834,
  author = {金澤知器},
  title = {光触媒的水分解反応の促進を指向した新規助触媒の開発},
  year = 2020,
}

@misc{CTT100908584,
  author = {前田和彦 and 金澤知器 and 清水彬光 and 米田　英昭 and 隅　英明 and 陰山　洋　},
  title = {二酸化炭素還元触媒、メタノール生成装置、一酸化炭素及びギ酸生成装置、二酸化炭素処理装置、並びに二酸化炭素還元方法
},
  howpublished = {公開特許},
  year = 2023,
  month  = {},
  note   = {特願2022-054420(2022/03/29), 特開2023-146955(2023/10/12)}
}




@phdthesis{CTT100818447,
  author = {金澤知器},
  title = {光触媒的水分解反応の促進を指向した新規助触媒の開発},
  school = {東京工業大学},
  year = 2020,
}

@phdthesis{CTT100818451,
  author = {金澤 知器},
  title = {光触媒的水分解反応の促進を指向した新規助触媒の開発},
  school = {東京工業大学},
  year = 2020,
}

@phdthesis{CTT100818453,
  author = {金澤 知器},
  title = {光触媒的水分解反応の促進を指向した新規助触媒の開発},
  school = {東京工業大学},
  year = 2020,
}

@phdthesis{CTT100857834,
  author = {金澤知器},
  title = {光触媒的水分解反応の促進を指向した新規助触媒の開発},
  school = {東京工業大学},
  year = 2020,
}