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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
Assessing Effects of Near-Field Synergistic Light Absorption on Ordered Inorganic Phototropic Growth.
Azhar I. Carim,Madeline C. Meier,Kathleen M. Kennedy,Matthias H. Richter,Kathryn R. Hamann,Nathan S. Lewis +5 more
TL;DR: In this article, synergistic light absorption in the optical near-field enables nanoscale self-organization during inorganic phototropic growth, and it was shown that Se-Te was grown electrochemically under illumin...
Patent
Methodology for forming pnictide compositions suitable for use in microelectronic devices
Gregory M. Kimball,Jeffrey P. Bosco,Harry A. Atwater,Nathan S. Lewis,Marty W. Degroot,James C. Stevens +5 more
TL;DR: In this article, the authors present methods for making photoactive and/or semiconductive pnictides, which are in the form of thin films grown on a wide range of suitable substrates to be incorporated into a range of microelectronic devices, including photovoltaic devices, photodetectors, light emitting diodes, betavoltaic device, thermoelectric devices, transistors, other optoelectronic devices.
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Primary Corrosion Processes for Polymer-Embedded Free-Standing or Substrate-Supported Silicon Microwire Arrays in Aqueous Alkaline Electrolytes
Kathleen M. Kennedy,Paul A. Kempler,Miguel Cabán-Acevedo,Kimberly M. Papadantonakis,Nathan S. Lewis +4 more
TL;DR: Multiple corrosion pathways in 1 M KOH(aq) have been defined for TiO2-protected Si microwire arrays in a polymer membrane either attached to a substrate or free-standing and top-down corrosion was observed in both morphologies.
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Energetics and Kinetics of Interfacial Electron-Transfer Processes at Chemically Modified InP/Liquid Junctions
TL;DR: In this paper, differential capacitance versus potential and current density versus potential techniques were used to measure the energetics and kinetics of interfacial electron-transfer reactions in contact with a 70:30 (v:v) mixture of CH3CN−tetrahydrofuran that contained either 1,1‘-dimethylferrrocene+/0 or decamethylferrocene +/0.
Journal ArticleDOI
The Caltech Chemistry Animation Project
TL;DR: In this paper, animals are being produced on subjects such as: atomic and molecular orbitals, lattices, VSPER, nucleophilic substitution, stereochemistry, sigma and pi bonding, and many more.