Hydrogen Oxidation-Driven Hot Electron Flow Detected by Catalytic Nanodiodes
Hydrogen oxidation on platinum is shown to be a surface catalytic chemical reaction that generates a steady state flux of hot (>1 eV) conduction electrons. These hot electrons are detected as a steady-state chemicurrent across Pt/TiO(2) Schottky diodes whose Pt surface is exposed to hydrogen and oxygen. Kinetic studies establish that the chemicurrent is proportional to turnover frequency for temperatures ranging from 298 to 373 K for P(H2) between 1 and 8 Torr and P(O2) at 760 Torr. Both chemicurrent and turnover frequency exhibit a first order dependence on P(H2).
- Publisher
- AMER CHEMICAL SOC
- Issue Date
- 2009-11
- Language
- English
- Article Type
- Article
- Keywords
PT(111) SURFACE; SCHOTTKY DIODES; OXYGEN REACTION; ENERGY-TRANSFER; WATER FORMATION; METAL-SURFACES; PLATINUM; DEUTERIUM; EXCITATION; MECHANISM
- Citation
NANO LETTERS, v.9, pp.3930 - 3933
- ISSN
- 1530-6984
- Appears in Collection
- EEW-Journal Papers(저널논문)
- Files in This Item
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