|A metal-free polymeric photocatalyst for hydrogen production from water under visible light|
X Wang, K Maeda, A Thomas, K Takanabe, G Xin, JM Carlsson, K Domen, ...
Nature materials 8 (1), 76-80, 2009
|Photocatalyst releasing hydrogen from water|
K Maeda, K Teramura, D Lu, T Takata, N Saito, Y Inoue, K Domen
Nature 440 (7082), 295-295, 2006
|Photocatalytic water splitting: recent progress and future challenges|
K Maeda, K Domen
The Journal of Physical Chemistry Letters 1 (18), 2655-2661, 2010
|New non-oxide photocatalysts designed for overall water splitting under visible light|
K Maeda, K Domen
The Journal of Physical Chemistry C 111 (22), 7851-7861, 2007
|Polymer semiconductors for artificial photosynthesis: hydrogen evolution by mesoporous graphitic carbon nitride with visible light|
X Wang, K Maeda, X Chen, K Takanabe, K Domen, Y Hou, X Fu, ...
Journal of the American Chemical Society 131 (5), 1680-1681, 2009
|GaN: ZnO solid solution as a photocatalyst for visible-light-driven overall water splitting|
K Maeda, T Takata, M Hara, N Saito, Y Inoue, H Kobayashi, K Domen
Journal of the American Chemical Society 127 (23), 8286-8287, 2005
|Synthesis of a carbon nitride structure for visiblelight catalysis by copolymerization|
J Zhang, X Chen, K Takanabe, K Maeda, K Domen, JD Epping, X Fu, ...
Angewandte Chemie International Edition 49 (2), 441-444, 2010
|Visible light water splitting using dye-sensitized oxide semiconductors|
WJ Youngblood, SHA Lee, K Maeda, TE Mallouk
Accounts of chemical research 42 (12), 1966-1973, 2009
|Photocatalytic water splitting using semiconductor particles: history and recent developments|
Journal of Photochemistry and Photobiology C: Photochemistry Reviews 12 (4 …, 2011
|Z-scheme water splitting using two different semiconductor photocatalysts|
Acs Catalysis 3 (7), 1486-1503, 2013
|Photocatalytic activities of graphitic carbon nitride powder for water reduction and oxidation under visible light|
K Maeda, X Wang, Y Nishihara, D Lu, M Antonietti, K Domen
The Journal of Physical Chemistry C 113 (12), 4940-4947, 2009
|Efficient nonsacrificial water splitting through two-step photoexcitation by visible light using a modified oxynitride as a hydrogen evolution photocatalyst|
K Maeda, M Higashi, D Lu, R Abe, K Domen
Journal of the American Chemical Society 132 (16), 5858-5868, 2010
|Sulfur-mediated synthesis of carbon nitride: band-gap engineering and improved functions for photocatalysis|
J Zhang, J Sun, K Maeda, K Domen, P Liu, M Antonietti, X Fu, X Wang
Energy & Environmental Science 4 (3), 675-678, 2011
|NobleMetal/Cr2O3 Core/Shell Nanoparticles as a Cocatalyst for Photocatalytic Overall Water Splitting|
K Maeda, K Teramura, D Lu, N Saito, Y Inoue, K Domen
Angewandte Chemie 118 (46), 7970-7973, 2006
|Photocatalytic overall water splitting promoted by two different cocatalysts for hydrogen and oxygen evolution under visible light|
K Maeda, A Xiong, T Yoshinaga, T Ikeda, N Sakamoto, T Hisatomi, ...
Angewandte Chemie 122 (24), 4190-4193, 2010
|Overall Water Splitting on (Ga1-x Zn x)(N1-x O x) Solid Solution Photocatalyst: Relationship between Physical Properties and Photocatalytic Activity|
K Maeda, K Teramura, T Takata, M Hara, N Saito, K Toda, Y Inoue, ...
The Journal of Physical Chemistry B 109 (43), 20504-20510, 2005
|Visiblelightdriven CO2 reduction with carbon nitride: enhancing the activity of ruthenium catalysts|
R Kuriki, K Sekizawa, O Ishitani, K Maeda
Angewandte Chemie International Edition 54 (8), 2406-2409, 2015
|RuO2-loaded β-Ge3N4 as a non-oxide photocatalyst for overall water splitting|
J Sato, N Saito, Y Yamada, K Maeda, T Takata, JN Kondo, M Hara, ...
Journal of the American Chemical Society 127 (12), 4150-4151, 2005
|Ordered mesoporous SBA-15 type graphitic carbon nitride: a semiconductor host structure for photocatalytic hydrogen evolution with visible light|
X Chen, YS Jun, K Takanabe, K Maeda, K Domen, X Fu, M Antonietti, ...
Chemistry of Materials 21 (18), 4093-4095, 2009
|Solid solution of GaN and ZnO as a stable photocatalyst for overall water splitting under visible light|
K Maeda, K Domen
Chemistry of Materials 22 (3), 612-623, 2010