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The oxidation states are also maintained in articles of the elements (of course), and systematically in the table {{Infobox element/symbol-to-oxidation-state}} See also [ edit ]
Oxidation states are typically represented by integers which may be positive, zero, or negative. In some cases, the average oxidation state of an element is a fraction, such as 8 / 3 for iron in magnetite Fe 3 O 4 . The highest known oxidation state is reported to be +9, displayed by iridium in the tetroxoiridium(IX) cation (IrO + 4). [1]
The oxidation states are also maintained in articles of the elements (of course), and systematically in the table {{Infobox element/symbol-to-oxidation-state}} See also [ edit ]
Gallium also has a formal oxidation state of +2 in dimeric compounds, such as [Ga 2 Cl 6] 2−, which contain a Ga-Ga bond formed from the unpaired electron on each Ga atom. [37] Thus the main difference in oxidation states, between transition elements and other elements is that oxidation states are known in which there is a single atom of the ...
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The chemical state of a chemical element is due to its electronic, chemical and physical properties as it exists in combination with itself or a group of one or more other elements. A chemical state is often defined as an "oxidation state" when referring to metal cations.
Mantle oxidation state changes because of the existence of polyvalent elements (elements with more than one valence state, e.g. Fe, Cr, V, Ti, Ce, Eu, C and others). Among them, Fe is the most abundant (≈8 wt% of the mantle [2]) and its oxidation state largely reflects the oxidation state of mantle.
the transition metal elements from group 4 to group 9 (titanium group to cobalt group) should be able to display the negative oxidation states which have the same parity as their group number (e.g, ruthenium is in group 8 an even number-so are its negative oxidation states -2 and -4). most of them also show the -1 oxidation state regardless of the parity of the group number (as in the case of ...