Porous platinum electrodes derived from the reduction of sputtered platinum dioxide films

@article{Maya1999PorousPE,
  title={Porous platinum electrodes derived from the reduction of sputtered platinum dioxide films},
  author={Leon Maya and Gilbert M. Brown and Thomas Thundat},
  journal={Journal of Applied Electrochemistry},
  year={1999},
  volume={29},
  pages={881-886},
  url={https://api.semanticscholar.org/CorpusID:92330611}
}
  • L. MayaG. BrownT. Thundat
  • Published 1 July 1999
  • Materials Science, Chemistry, Engineering
  • Journal of Applied Electrochemistry
The present study was undertaken to establish whether highly porous platinum dioxide ®lms deposited by reactive sputtering of platinum in an oxygen plasma could serve as precursor to high speci®c surface area electrodes of platinum. The chemistry underlying such process is quite simple and has as its precedent the wide use of platinum dioxide, also known as Adams' catalyst, as the precursor of ®nely divided metallic platinum in the hydrogenation of organic compounds [1]. Metallic electrodes… 
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11 Citations
Background Citations
3

11 Citations

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10 References

Characterization of sputtered amorphous platinum dioxide films

Amorphous platinum dioxide, a-PtO2, films are formed commonly during reactive sputtering of platinum at relatively high power density levels and high oxygen partial pressures. The structure of a-PtO2

Effects of surface structure on the electrochemical properties of Nimetal complex oxide film electrode

Problem of in situ real-area determination in evaluation of performance of rough or porous, gas-evolving electrocatalysts. Part 2.—Unfolding of the electrochemically accessible surface of rough or porous electrodes: a case-study with an electrodeposited porous Pt electrode

The problem of evaluation of the electrochemically effective area of porous electrocatalyst materials is treated by examination of the kinetics of the hydrogen evolution reaction (HER) from aqueous

Growth and characterization of reactively sputtered thin‐film platinum oxides

Thin‐film oxides of platinum have been prepared by reactive sputtering and characterized primarily by x‐ray diffraction (XRD) and Raman scattering. Different phases of the Pt‐O system were obtained

The oxygen electrode reaction in acid solutions on RuO2 electrodes prepared by the thermal decomposition method

A New Fuel Cell Electrocatalyst Based on Highly Porous Carbonized Polyacrylonitrile Foam with Very Low Platinum Loading

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Carbon in α-Platinum Dioxide

Carbon in the form of hydrocarbons was found chemisorbed on α-PtO2. The sorption process, observed in the laboratory, occurs readily in the absence of a deliberate source, and it is faster on thin

Scanning tunneling microscopy studies of semiconductor electrochemistry

We have used scanning tunneling microscopy to investigate topographical changes on potentiostatically controlled semiconductor surfaces due to electrochemical reactions. The electrochemical processes

The preparation of thin films by physical vapour deposition methods

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