The electrochemical permeation of hydrogen in palladium: Boundary conditions during a galvanostatic charging under low charging current densities. Manolatos, P., Duret-Thual, C., Le Coze, J., & Jerome, M. Corrosion Science, 37(11):1797–1807, November, 1995. 00000doi abstract bibtex The application of the hydrogen electrochemical permeation in palladium can help to better understand the phenomena involved in the permeation process. With this metal surface phenomena can be controlled and stationary conditions as well as a good reproducibility can be obtained. The validity of the boundary conditions during a galvanostatic charging was verified and the hydrogen efficiency was evaluated. The concentration gradient and the amount of hydrogen which is found in the sample during the stationary conditions were quantitatively determined.
@article{manolatos_electrochemical_1995,
title = {The electrochemical permeation of hydrogen in palladium: {Boundary} conditions during a galvanostatic charging under low charging current densities},
volume = {37},
issn = {0010-938X},
shorttitle = {The electrochemical permeation of hydrogen in palladium},
doi = {10/ffztv6},
abstract = {The application of the hydrogen electrochemical permeation in palladium can help to better understand the phenomena involved in the permeation process. With this metal surface phenomena can be controlled and stationary conditions as well as a good reproducibility can be obtained. The validity of the boundary conditions during a galvanostatic charging was verified and the hydrogen efficiency was evaluated. The concentration gradient and the amount of hydrogen which is found in the sample during the stationary conditions were quantitatively determined.},
language = {en},
number = {11},
journal = {Corrosion Science},
author = {Manolatos, P. and Duret-Thual, C. and Le Coze, J. and Jerome, M.},
month = nov,
year = {1995},
note = {00000},
pages = {1797--1807},
}
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