"難波江裕太","芳香族ポリマーの触媒材料への展開","第２４回 ポリイミド・芳香族系高分子会議",,,,,,2016,Dec.
"Jiajia Wu,Yuta Nabae,Azhagumuthu Muthukrishnan,Takeo Ohsaka","Electrochemical deposition and dissolution of Fe species for N-doped carbon to understand the degradation mechanism of Pt-free oxygen reduction catalysts",,"Electrochimica Acta",,"Vol. 214",,"pp. 307-312",2016,Oct.
"Azhagumuthu Muthukrishnan,Yuta Nabae","Estimation of the Inherent Kinetic Parameters for Oxygen Reduction over a Pt-Free Cathode Catalyst by Resolving the Quasi-Four-Electron Reduction",,"The Journal of Physical Chemistry C","American Chemical Society","Vol. 120","No. 39","pp. 22515-22525",2016,Sept.
"Yuta Nabae","Application of Aromatic Polymers to Heterogeneous Catalysis","Polycondensation 2016",,,,,,2016,Sept.
"Yu Sudo,Hideaki Sakai,Yuta Nabae,Teruaki Hayakawa,Masa-aki Kakimoto","Role of hyperbranched polystyrene on thermo-responsive cell culture dishes prepared by hyperbranched polystyrene-g-poly(N-isopropylacrylamide)",,"Polymer",,"Vol. 100",,"pp. 77-85",2016,Aug.
"Renaud Gillet,Hideaki Sakai,Yuta Nabae,Teruaki Hayakawa,Masa-aki Kakimoto","Synthesis of hyperbranched-linear poly(N-isopropylacrylamide) polymers with a poly(siloxysilane) hyperbranched macroinitiator, and their application to cell culture on glass substrates",,"Polym J","The Society of Polymer Science, Japan","Vol. 48",,"  1007-1012",2016,July
"難波江裕太","固体高分子形燃料電池におけるカーボン系カソード触媒による酸素還元反応 ?Nドープカーボンは遷移金属なしで酸素還元を促進するのか？?","東京大学物性研究所 機能物性セミナー",,,,,,2016,June
"Yuta Nabae,Shinsuke Nagata","Oxygen Reduction Catalytic Activity of Carbon-based Cathode Catalyst Prepared from Polyimide Nano-Particles Containiing Fe-Phenanthroline Complex",,"Journal of Photopolymer Science ant Technology",,"Vol. 29","No. 2","p. 255-258",2016,May
"畳開真之,難波江裕太","白金に代わる燃料電池カソード触媒『カーボンアロイ触媒』",,"マテリアルステージ",,"Vol. 16","No. 1","p. 12-17",2016,Apr.
"Nabae Yuta,Nagata Shinsuke,Hayakawa Teruaki,Niwa Hideharu,Harada Yoshihisa,Oshima Masaharu,Isoda Ayano,Matsunaga Atsushi,Tanaka Kazuhisa,Aoki Tsutomu","Pt-free carbon-based fuel cell catalyst prepared from spherical polyimide for enhanced oxygen diffusion",,"Scientific Reports",,"  6",,"  23276",2016,Mar.