Oxygen tolerance of a molecular engineered cathode for hydrogen evolution based on a cobalt diimine–dioxime catalyst

N Kaeffer, A Morozan, V Artero - The Journal of Physical Chemistry …, 2015 - ACS Publications
We report here that a bioinspired cobalt diimine–dioxime molecular catalyst for hydrogen
evolution immobilized onto carbon nanotube electrodes proves tolerant toward oxygen. The …
被引用次数:44 相关文章

Oxygen Tolerance of a Molecular Engineered Cathode for Hydrogen Evolution Based on a Cobalt Diimine-Dioxime Catalyst.

N Kaeffer, A Morozan, V Artero - The Journal of Physical chemistry …, 2015 - europepmc.org
We report here that a bioinspired cobalt diimine-dioxime molecular catalyst for hydrogen
evolution immobilized onto carbon nanotube electrodes proves tolerant toward oxygen. The …

[引用][C] Oxygen Tolerance of a Molecular Engineered Cathode for Hydrogen Evolution Based on a Cobalt Diimine–Dioxime Catalyst

N Kaeffer, A Morozan, V Artero - The Journal of Physical Chemistry B, 2015 - cir.nii.ac.jp
Oxygen Tolerance of a Molecular Engineered Cathode for Hydrogen Evolution Based on a
Cobalt Diimine–Dioxime Catalyst | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ …

Oxygen Tolerance of a Molecular Engineered Cathode for Hydrogen Evolution Based on a Cobalt Diimine-Dioxime Catalyst

N Kaeffer, A Morozan, V Artero - The journal of physical …, 2015 - pubmed.ncbi.nlm.nih.gov
We report here that a bioinspired cobalt diimine-dioxime molecular catalyst for hydrogen
evolution immobilized onto carbon nanotube electrodes proves tolerant toward oxygen. The …

Oxygen Tolerance of a Molecular Engineered Cathode for Hydrogen Evolution Based on a Cobalt Diimine–Dioxime Catalyst

N Kaeffer, A Morozan, V Artero - Journal of Physical Chemistry B, 2015 - hal.science
We report here that a bioinspired cobalt diimine–dioxime molecular catalyst for hydrogen
evolution immobilized onto carbon nanotube electrodes proves tolerant toward oxygen. The …