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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.
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Frontiers of research in photoelectrochemical solar energy conversion
TL;DR: In this article, the authors provide an outlook for future research in semiconductor electrochemistry, and provide an overview of two selected research projects at the frontier of photoelectrochemistry.
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A quantitative analysis of the efficiency of solar-driven water-splitting device designs based on tandem photoabsorbers patterned with islands of metallic electrocatalysts
TL;DR: In this article, the tradeoff between the optical obscuration and kinetic overpotentials of electrocatalyst films patterned onto the surface of tandem light-absorber structures in model photoelectrosynthetic water-splitting systems was investigated using a 0-dimensional load-line analysis and experimental measurements.
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Photoelectrochemical reduction of N,N'-dimethyl-4,4'-bipyridinium in aqueous media at p-type silicon: sustained photogeneration of a species capable of evolving hydrogen
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Characterization of Electronic Transport through Amorphous TiO2 Produced by Atomic Layer Deposition
Paul D. Nunez,Matthias H. Richter,Brandon D. Piercy,Christopher W. Roske,Christopher W. Roske,Miguel Cabán-Acevedo,Mark D. Losego,Steven J. Konezny,David J. Fermín,Shu Hu,Bruce S. Brunschwig,Nathan S. Lewis +11 more
TL;DR: In this paper, electrical transport in amorphous titanium dioxide thin films, deposited by atomic layer deposition (ALD), and across heterojunctions of p+-Si|a-TiO2|metal substrates that had various top...
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Functional integration of Ni–Mo electrocatalysts with Si microwire array photocathodes to simultaneously achieve high fill factors and light-limited photocurrent densities for solar-driven hydrogen evolution
TL;DR: An n+p-Si microwire array coupled with a two-layer catalyst film consisting of Ni-Mo nanopowder and TiO2 light-scattering nanoparticles has been used to simultaneously achieve high fill factors and light-limited photocurrent densities from photocathodes that produce H2(g) directly from sunlight and water as discussed by the authors.