Singlet oxygen: Difference between revisions
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File:Dioxygen-3D-ball-&-stick.png|Ball and stick model of dioxygen | |||
File:Molecular_orbital_scheme_for_the_three_forms_of_oxygen.png|Molecular orbital scheme for the three forms of oxygen | |||
File:Singlet_oxygen_generation_anthracene.png|Singlet oxygen generation with anthracene | |||
File:Singlet_Oxygenation_Citronellol.svg|Singlet oxygenation of citronellol | |||
File:Modified_Jablonski_diagram_showing_the_mechanism_of_PDT.jpg|Modified Jablonski diagram showing the mechanism of photodynamic therapy | |||
File:Singlet_oxygen_Glow.jpg|Singlet oxygen glow | |||
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Latest revision as of 11:33, 18 February 2025
Singlet Oxygen
Singlet oxygen, denoted as ^1O_2, is a form of oxygen that is in a higher energy state than the most stable, triplet form of oxygen, ^3O_2. It is a highly reactive oxygen species that plays a significant role in various biological and chemical processes.
Physical Properties[edit]
Singlet oxygen is a diradical, meaning it has two unpaired electrons. However, unlike triplet oxygen, the electrons in singlet oxygen are paired in the same molecular orbital, resulting in a total spin of zero. This makes singlet oxygen a "singlet" state, hence its name.
Singlet oxygen is less stable than triplet oxygen and has a higher energy level. It is also highly reactive, which is why it is often involved in chemical reactions.
Production[edit]
Singlet oxygen can be produced in several ways. One common method is through the energy transfer from a photosensitizer molecule to molecular oxygen in a process known as photosensitization. This process is commonly used in photodynamic therapy for cancer treatment.
Another method of production is through the reaction of hydrogen peroxide with hypochlorite, a process known as the Weiss reaction.
Role in Biological Processes[edit]
Singlet oxygen plays a significant role in various biological processes. It is involved in cell signaling, immune response, and apoptosis. It is also a key player in photodynamic therapy, where it is used to kill cancer cells.
However, singlet oxygen can also be harmful to cells. It can cause oxidative stress, leading to cell damage and death. This is why organisms have developed various defense mechanisms to protect against singlet oxygen, such as the production of antioxidants.
See Also[edit]
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Ball and stick model of dioxygen -
Molecular orbital scheme for the three forms of oxygen -
Singlet oxygen generation with anthracene -
Singlet oxygenation of citronellol -
Modified Jablonski diagram showing the mechanism of photodynamic therapy -
Singlet oxygen glow
