https://solarfuelshub.org/
- Yu, Weilai (2021) Stability
of Photo-Electrochemical Interface for Solar Fuels; 10.7907/2z16-d005
- Cheng, Wen-Hui (Sophia) (2020) Towards
High Solar to Fuel Efficiency: From Photonic Design, Interface Study, to
Device Integration; 10.7907/kd6a-xt88
- Moreno-Hernandez, Ivan A. (2019) Earth-Abundant
Metal Oxides for Anodic Reactions in Acidic Electrolytes; 10.7907/XRN5-FV98
- Lichterman, Michael Yang (2018) Analysis
of Metal-Oxide Protected Photoelectrochemical Systems for Water
Splitting; 10.7907/aq89-jv13
- Jiang, Jingjing (2018) Interfacial
and Stability Studies of Photocathodes for Hydrogen Evolution; 10.7907/SBJ9-D062
- Zhou, Xinghao (2018) Performance
and Stability Optimization of Solar Fuel Devices; 10.7907/SSNP-XW29
- Torelli, Daniel Anthony (2018) The
Discovery of Novel Materials for the Electrocatalytic Reduction of
Carbon Dioxide; 10.7907/RBD5-B141
- Saadi, Fadl Hussein (2017) Acid-Stable
Electrocatalysts for the Solar Production of Fuels; 10.7907/Z9QF8QV4
- Verlage, Erik A. (2017) High-Efficiency
Solar Fuel Devices: Protection and Light Management Utilizing TiO2;
10.7907/Z9MC8X2P
- Shaner, Matthew Reed (2016) An
Experimental and Technoeconomic Study of Silicon Microwire Arrays for
Fuel Production Using Solar Energy; 10.7907/Z98C9T7Z
- Narang, Prineha (2015) Light-Matter
Interactions in Semiconductors and Metals: From Nitride Optoelectronics
to Quantum Plasmonics; 10.7907/Z9513W4S
- Fountaine, Katherine Theresa (2015) Mesoscale
Optoelectronic Design of Wire-Based Photovoltaic and
Photoelectrochemical Devices; 10.7907/Z9P26W1K
- Fong, Henry (2015) Metallaboratrane
Facilitated E‒H Bond Activation and Hydrogenation Catalysis; 10.7907/Z9TX3C9P
- Leenheer, Andrew Jay (2013) Light
to Electrons to Bonds: Imaging Water Splitting and Collecting
Photoexcited Electrons; 10.7907/A8ZZ-Z189