T
Thomas J. Schmidt
Researcher at Paul Scherrer Institute
Publications - 456
Citations - 28640
Thomas J. Schmidt is an academic researcher from Paul Scherrer Institute. The author has contributed to research in topics: Catalysis & Electrolyte. The author has an hindex of 66, co-authored 384 publications receiving 23940 citations. Previous affiliations of Thomas J. Schmidt include ETH Zurich & Lawrence Berkeley National Laboratory.
Papers
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Single- and multi-wall carbon nanotube field-effect transistors
TL;DR: In this article, the authors fabricated field effect transistors based on individual single and multi-wall carbon nanotubes and analyzed their performance, showing that structural deformations can make them operate as field-effect transistors.
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Oxygen reduction on a high-surface area Pt/Vulcan carbon catalyst: a thin-film rotating ring-disk electrode study
TL;DR: In this paper, a thin-film rotating disk electrode method and its application in a rotating ring disk configuration (RRDE) to the investigation of the oxygen reduction reaction (orr) on a supported catalyst powder (Pt/Vulcan XC 72 carbon).
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Characterization of High‐Surface‐Area Electrocatalysts Using a Rotating Disk Electrode Configuration
Thomas J. Schmidt,Hubert A. Gasteiger,G. D. Stäb,Peter Urban,Dieter M. Kolb,Rolf Jürgen Behm +5 more
TL;DR: In this article, a method for the characterization of the electrocatalytic properties of highly dispersed electro catalysts in a true rotating disk electrode configuration by attaching the catalyst powder on a glossy carbon electrode via a thin Nafion film is presented.
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Oxygen Reduction Reaction on Pt and Pt Bimetallic Surfaces: A Selective Review
TL;DR: In this article, a review of recent progress in the development of the oxygen reduction reaction (ORR) catalysis on well-defined surfaces is presented, focusing on two type of metallic surfaces: platinum single crystals and bimetallic surfaces based on platinum.
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Developments and perspectives of oxide-based catalysts for the oxygen evolution reaction
TL;DR: In this article, the authors summarized previous and most recent theoretical predictions and experimental outcomes in the field of oxide-based catalysts for the oxygen evolution reaction (OER), both operating in acidic and alkaline environments.