Research field (3):
Inorganic compounds/materials chemistry
, Composite materials and interfaces
, Chemical reaction and process system engineering
Research theme for competitive and other funds (9):
2024 - 2027 Fabrication of metal alloy nanoparticle catalysts from nano-interface distortion of porous metal complexes by supercritical activation
2023 - 2026 テーラーメイドな二酸化炭素の電気化学転換を実現する金属膜積層電極の開発
2023 - 2024 自由自在な二酸化炭素転換を可能とする金属膜積層電極の創製
2018 - 2022 Synthesis of stacked metal layer elecetrode for electrochemical reduction reaction of carbon dioxide
2018 - 2019 二酸化炭素の新たな電気化学転換機構を発現する金属原子膜積層電極の創製
2017 - 2018 高エネルギーイオン液体推進剤の組成構築と分解・燃焼特性の解析
2017 - 2018 選択的なアルコール生成を可能とする金属単結晶積層電極の創製
2014 - 2015 炭酸ガス固定化に向けた電気化学還元反応による炭化水素燃料精密合成法の探索
2008 - 2009 単層ナノチューブのカイラリティー制御合成法の開発
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Papers (23):
Naoki Yoshihara, Yuya Tahara, Masaru Noda. Machine learning method for determining chemical vapor deposition conditions for large-area graphene growth. Asia-Pacific Journal of Chemical Engineering. 2023
Takafumi Kato, Takuya Yoda, Naoki Yoshihara. Lignin Derived Carbon Electrodes for Hydrocarbon Formation by Electrochemical Reduction of Carbon Dioxide. Chemistry Letters. 2022. 51. 709-712
N. Yoshihara, A. Sano, M. Noda, T. Kato. Etchant-Induced Selective Hydrocarbon Formation on Copper Electrodes by Electrochemical Reduction Reaction of Carbon Dioxide. Chemistry Letters. 2020. 49. 10. 1121-1124
N. Yoshihara, A. Sano, K. Urakawa, M. Noda, T. Kato. Selection of Support Materials for Uniform MoS2 Monolayer Formation by Chemical Vapor Deposition. Transactions of the Materials Research Society of Japan. 2020. 45. 3. 81-84
Synthesis of Copper Nanoparticle loaded Carbon Electrodes Derived from Woody-biomass and Electrochemical Application for Carbon Dioxide Conversion. 2023. 40. 15-22
Growth mechanism of single- and double-walled carbon nanotubes by water-assisted chemical vapor deposition. The Bulletin of the Nano Science and Technology. 2008. 7. 1. 39-44
