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Nathan S. Lewis
Researcher at California Institute of Technology
Publications - 730
Citations - 72550
Nathan S. Lewis is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Semiconductor & Silicon. The author has an hindex of 112, co-authored 720 publications receiving 64808 citations. Previous affiliations of Nathan S. Lewis include Lawrence Berkeley National Laboratory & Massachusetts Institute of Technology.
Papers
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Journal ArticleDOI
Methods of photoelectrode characterization with high spatial and temporal resolution
Daniel V. Esposito,Daniel V. Esposito,Jason B. Baxter,Jimmy John,Nathan S. Lewis,Thomas P. Moffat,Tadashi Ogitsu,Glen D. O’Neil,Tuan Anh Pham,A. Alec Talin,Jesus M. Velazquez,Brandon C. Wood +11 more
TL;DR: A broad suite of experimental and computational tools that can be used to define the structure-property relationships of photoelectrode materials at small dimensions and on fast time scales is presented in this paper.
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PH-Independent, 520 mV open-circuit voltages of Si/methyl viologen 2+/+ contacts through use of radial n+p-Si junction microwire array photoelectrodes
TL;DR: In this paper, the effects of adding an n^+-doped emitter layer have been evaluated for both planar Si photoelectrodes and for radial junction Si microwire-array photo electrodes.
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Modeling an integrated photoelectrolysis system sustained by water vapor
TL;DR: In this paper, two designs for an integrated photoelectrolysis system sustained by water vapor have been investigated using a multi-physics numerical model that accounts for charge and species conservation, electron and ion transport, and electrochemical processes.
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Comparison between the Quantum Yields of Compact and Porous WO3 Photoanodes
TL;DR: In this article, a morphological control was used to improve the internal quantum yield of WO_3 photoanodes in contact with aqueous electrolytes, which was shown to increase the photocurrent density and stability against photode degradation.
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A comparison of the chemical, optical and electrocatalytic properties of water-oxidation catalysts for use in integrated solar-fuel generators
Ke Sun,Ivan A. Moreno-Hernandez,William C. Schmidt,Xinghao Zhou,J. Chance Crompton,Rui Liu,Fadl H. Saadi,Yikai Chen,Kimberly M. Papadantonakis,Nathan S. Lewis +9 more
TL;DR: The relationship between the overpotential and optical transmission of the catalysts determined the attainable efficiencies for integrated solar-fuel devices as well as the optimal band gaps for the photoanode in such devices as discussed by the authors.