Significance of Oxidation states
Oxidation states refer to the degree of oxidation of an atom within a compound, particularly highlighted in manganese oxidation states, which range from +2 to +7. They also encompass various natural forms of selenium that differ in reactivity and biological roles. Furthermore, oxidation states are essential for understanding the reactive properties of metals like silver and the electron states in carbon atoms of sugars, which directly affect ATP production during metabolism.
Synonyms: Oxidation levels, Oxidation conditions
The below excerpts are indicatory and do represent direct quotations or translations. It is your responsibility to fact check each reference.
The concept of Oxidation states in scientific sources
Oxidation states pertain to the electron configurations in carbon atoms of sugars, impacting metabolic processes and determining ATP yield during energy production. Understanding these states is crucial for comprehending cellular respiration and energy efficiency.
From: World Journal of Pharmaceutical Research
(1) Different forms and chemical states of selenium that occur naturally and vary in their reactivity and biological functions.[1] (2) Oxidation states represent the degree of oxidation of an atom in a compound, particularly referring to manganese oxidation states from +2 to +7 in this context.[2] (3) Refers to the specific states of electrons in carbon atoms of sugars, which influence the number of ATP produced during metabolism.[3]
From: Ayushdhara journal
(1) The specific states of oxidation that metals, including silver, can exist in, which are crucial for their reactive properties.[4]