Plasmon-enhanced light-driven water oxidation by a dye-sensitized photoanode.
Degao WangBenjamin D ShermanByron H FarnumMatthew V SheridanSeth L MarquardMichael S EberhartChristopher J DaresThomas J MeyerPublished in: Proceedings of the National Academy of Sciences of the United States of America (2017)
Dye-sensitized photoelectrosynthesis cells (DSPECs) provide a flexible approach for solar water splitting based on the integration of molecular light absorption and catalysis on oxide electrodes. Recent advances in this area, including the use of core/shell oxide interfacial structures and surface stabilization by atomic layer deposition, have led to improved charge-separation lifetimes and the ability to obtain substantially improved photocurrent densities. Here, we investigate the introduction of Ag nanoparticles into the core/shell structure and report that they greatly enhance light-driven water oxidation at a DSPEC photoanode. Under 1-sun illumination, Ag nanoparticle electrodes achieved high photocurrent densities, surpassing 2 mA cm-2 with an incident photon-to-current efficiency of 31.8% under 450-nm illumination.
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