| 1. | Reducing agents can be ranked by increasing strength by ranking their oxidation potentials.
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| 2. | The oxidation potential for a particular electrode is just the negative of the reduction potential.
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| 3. | Similar to ruthenium, the oxidation potential of manganese is high, leading to over-oxidation of substrates.
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| 4. | The oxidation potential of copper may be responsible for some of its toxicity in excess ingestion cases.
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| 5. | However, to develop highly water soluble quinone compounds with optimized reduction or oxidation potential is not straightforward.
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| 6. | Thus, the oxidation potential of a chemical species is listed as the reduction potential of its oxidized form.
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| 7. | Here, fluids react less via chemical exchange of ions, but because of the redox-oxidation potential of the wall rocks.
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| 8. | There is also a linear relationship between the corrected chemiluminescence intensity and the oxidation potential of the molecule [ 6 ].
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| 9. | The table below shows a few reduction potentials that could easily be changed to oxidation potential by simply reversing the sign.
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| 10. | The reducing agent is stronger when it has a more positive oxidation potential and weaker when it has a negative oxidation potential.
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