"Naoki Noto","Study on design of Strongly Reducing Organic Photoredox Catalytic Systems",,,,,,,2020,Mar.
"Naoki Noto","Study on design of Strongly Reducing Organic Photoredox Catalytic Systems",,,,,,,2020,Mar.
"Naoki Noto","Study on design of Strongly Reducing Organic Photoredox Catalytic Systems",,,,,,,2020,Mar.
"Naoki Noto","Study on design of Strongly Reducing Organic Photoredox Catalytic Systems",,,,,,,2020,Mar.
"谷口 諒,納戸 直木,小池隆司,穐田 宗隆","高還元力を有する有機可視光レドックス触媒を用いたモノフルオロアルキルラジカル種の発生：β-フルオロケトン類の新合成法","第42回 フッ素化学討論会",,,,,,2019,Nov.
"Naoki Noto,Takashi Koike,Munetaka Akita","Visible Light-Triggered Monofluoromethylation of Alkenes by Strongly Reducing 1,4-Bis(diphenylamino)naphthalene Photoredox Catalysis",,"ACS Catalysis",,"Vol. 9",,"p. 4382-4387",2019,Apr.
"谷口 諒,納戸 直木,小池隆司,穐田 宗隆","高還元力を有する有機フォトレドックス触媒によるモノフルオロアルキルラジカル種の発生を経たβ-フルオロケトン類の合成","日本化学会 第99春季年会",,,,,,2019,Mar.
"納戸 直木,小池隆司,穐田 宗隆","有機光触媒を用いたアルケンのフルオロアルキル二官能基化反応","第41回 フッ素化学討論会",,,,,,2018,Oct.
"納戸 直木,小池隆司,穐田 宗隆","多環芳香環を基盤とする有機光触媒によるフルオロアルキル化反応","第122回 触媒討論会",,,,,,2018,Sept.
"Naoki Noto,Yuya Tanaka,Takashi Koike,Munetaka Akita","Strongly Reducing (Diarylamino)anthracene Catalyst for Metal-Free Visible-Light Photocatalytic Fluoroalkylation",,"ACS Catalysis",,"Vol. 8",,"Page 9408-9419",2018,Aug.
"Naoki Noto,Takashi Koike,MUNETAKA AKITA","Metal-free Photocatalytic Fluoroalkylation of Olefins with Diarylaminoanthracene Catalysts","日本化学会 第98春季年会",,,,,,2018,Feb.
"Naoki Noto,Takashi Koike,Munetaka Akita","Metal-free di- and tri-fluoromethylation of alkenes realized by visible-light-induced perylene photoredox catalysis",,"Chemical Science",,"Vol. 8",,"p. 6375-6379",2017,July
"Naoki Noto,Takashi Koike,MUNETAKA AKITA","Diastereoselective Synthesis of CF3- and CF2H- Substituted Spiroethers from Aryl-Fused Cycloalkenylalkanols by Photoredox Catalysis",,"The Journal of Organic Chemistry","Americal Chemical Society","Vol. 81",,"p. 7064-7071",2016,June
"Naoki Noto,Kazuki Miyazawa,Takashi Koike,Munetaka Akita","Anti-Diastereoselective Synthesis of CF3-Containing Spirooxazolines and Spirooxazines via Regiospecific Trifluoromethylative Spirocyclization by Photoredox Catalysis",,"Org. Lett.","American Chemical Society","vol. 17",,"p. 3710-3713",2015,Aug.