"Yuuki sugawara,小林弘明,本間格,Takeo Yamaguchi","Development of Efficient Transition Metal Oxide-based Electrocatalysts toward Alkaline Water Electrolysis","Renewable Energy 2022 International Conference",,,,,,2022,Dec. "菅原勇貴","実験と計算を活用した水電解用電極触媒の効率設計","化学工学会 2022 新潟大会",,,,,,2022,Nov. "Yuuki Sugawara,Keigo Kamata,Satomi Ueno,Atsushi Ishikawa,Eri Hayashi,Mitsuru Itoh,Yosuke Hamasaki,Yoshitaka Tateyama,Takeo Yamaguchi","Crystal Structure-Controlled Electrocatalysis on Iron-Based Oxides Toward Oxygen Evolution in Alkaline Media: Trend and Mechanism","The 242nd Electrochemical Society Meeting",,,,,,2022,Oct. "菅原勇貴","実験/計算/データの協働による水電解用触媒開発の高速化および結晶構造に基づく触媒設計論の確立","材料化学システム工学討論会2022",,,,,,2022,Sept. "菅原勇貴,上野里美,鎌田慶吾,山口猛央","鉄系複合酸化物の結晶構造に基づく水電解アノード反応触媒の設計論の提案","第130回触媒討論会",,,,,,2022,Sept. "菅原勇貴,広瀬 敏之,川内 進,山口猛央","シクロデキストリンの分子認識に基づく高感度自律膨潤収縮ポリマーの開発","化学工学会第53回秋季大会",,,,,,2022,Sept. "菅原勇貴,広瀬 敏之,川内 進,山口猛央","シクロデキストリンのホスト?ゲスト相互作用を利用した自律膨潤収縮ポリマーの開発","第71回高分子討論会",,,,,,2022,Sept. "孫福幹太,菅原勇貴,山口猛央","アルカリ水電解における鉄系MOFの活性評価、構造効果の解明","化学工学会第53回秋季大会",,,,,,2022,Sept. "北川智大,黒木秀記,菅原勇貴,山口猛央","燃料電池Pt触媒の水による酸化被毒抑制に向けたPt/アイオノマー界面の制御","化学工学会第53回秋季大会",,,,,,2022,Sept. "Yuuki Sugawara,Seiichi Amamiya,Takeo Yamaguchi","Comprehensive Simulation of the Efficient Desalination Process Using a Hollow Fiber Forward Osmosis Membrane Module",,"Desalination",," 538",," 115923",2022,June "孫福幹太,菅原勇貴,山口猛央","鉄系MOF型電極触媒の酸素発生反応活性における鉄の構造効果の解明","第29回燃料電池シンポジウム",,,,,,2022,May "菅原勇貴","原子間距離の制御で水素製造用鉄系触媒の高性能化に成功",,"自動車技術",," 76"," 3"," 112-113",2022,Mar. "Yuuki Sugawara,Satomi Ueno,Keigo Kamata,Takeo Yamaguchi","Cover Profile: Crystal Structures of Iron-Based Oxides and Their Catalytic Efficiencies for the Oxygen Evolution Reaction: A Trend in Alkaline Media",,"ChemElectroChem","Wiley-VCH GmbH",,,,2022,Mar. "菅原勇貴,上野里美,鎌田慶吾,山口猛央","データを活用した鉄系複合酸化物触媒の水電解アノード反応活性に対する普遍的構造因子の解明","化学工学会第87年会",,,,,,2022,Mar. "菅原勇貴","実験/計算/データの活用による水素製造用高性能電極触媒の設計開発","2021年度アライアンス合同ウェブ分科会",,"人・環境と物質をつなぐイノベーション創出 ダイナミックアライアンス",,,,2022,Feb. "Yuuki Sugawara,Satomi Ueno,Keigo Kamata,Takeo Yamaguchi","Crystal Structures of Iron-Based Oxides and Their Catalytic Efficiencies for the Oxygen Evolution Reaction: A Trend in Alkaline Media",,"ChemElectroChem",," 9"," 9"," e202101679",2022,Jan.