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'''Hydroxyl Radical'''
{{Short description|Highly reactive species in chemistry}}
{{Use dmy dates|date=October 2023}}


The '''Hydroxyl Radical''' is a highly reactive [[oxygen]] species that is produced in biological systems. It is a type of [[free radical]] that is characterized by an unpaired electron in its outermost shell.  
==Hydroxyl Radical==
The '''hydroxyl radical''' (•OH) is a highly reactive species in chemistry, known for its role in various chemical and biological processes. It is a neutral form of the hydroxide ion (OH_) and is one of the most reactive free radicals. Hydroxyl radicals are often involved in oxidation reactions and are crucial in atmospheric chemistry, particularly in the degradation of pollutants.


== Production ==
[[File:Hydroxyl radical.png|thumb|right|200px|Structure of the hydroxyl radical.]]


The Hydroxyl Radical is produced in the body through various processes. One of the main ways is through the [[Fenton reaction]], where it is produced from [[hydrogen peroxide]] in the presence of [[iron]] or [[copper]] ions. It can also be produced through the [[Haber-Weiss reaction]], which involves the reaction of [[superoxide]] with hydrogen peroxide.
==Formation==
Hydroxyl radicals are typically formed through the photolysis of water vapor in the atmosphere, a process driven by ultraviolet (UV) radiation. This can be represented by the following reaction:


== Role in the Body ==
: H_O + UV _ •OH + H•


The Hydroxyl Radical plays a crucial role in the body's [[immune response]]. It is used by [[white blood cells]] to destroy [[pathogens]]. However, due to its high reactivity, it can also cause damage to the body's own cells and tissues if its production is not properly regulated. This can lead to various health problems, including [[inflammation]], [[aging]], and [[cancer]].
In addition to photolysis, hydroxyl radicals can also be generated through the reaction of ozone (O_) with water vapor or through the Fenton reaction, where hydrogen peroxide (H_O_) reacts with iron ions (Fe__):


== Health Effects ==
: H_O_ + Fe__ _ •OH + OH_ + Fe__


Excessive production of the Hydroxyl Radical can lead to [[oxidative stress]], which is a major factor in the development of many diseases. These include [[cardiovascular disease]], [[neurodegenerative diseases]] such as [[Alzheimer's disease]] and [[Parkinson's disease]], and various types of cancer.
==Reactivity==
The hydroxyl radical is extremely reactive due to its unpaired electron, making it a potent oxidizing agent. It can react with a wide range of organic and inorganic substances, often initiating chain reactions. In the atmosphere, hydroxyl radicals play a critical role in the breakdown of pollutants such as volatile organic compounds (VOCs) and nitrogen oxides (NOx), contributing to the formation of secondary pollutants like ozone.


== Prevention and Treatment ==
==Biological Significance==
In biological systems, hydroxyl radicals are produced as byproducts of normal metabolic processes. They are part of the reactive oxygen species (ROS) family, which includes superoxide anions (O__) and hydrogen peroxide (H_O_). While ROS are essential for certain cellular functions, excessive production of hydroxyl radicals can lead to oxidative stress, damaging cellular components such as DNA, proteins, and lipids.
[[File:Pyrithione-tautomerism-2D-skeletal.png|Pyrithione tautomerism 2D skeletal|thumb]]


The body has several mechanisms to neutralize the Hydroxyl Radical and prevent its harmful effects. These include [[antioxidants]] such as [[vitamin C]] and [[vitamin E]], as well as enzymes such as [[superoxide dismutase]] and [[catalase]]. In addition, certain dietary factors, such as the consumption of [[fruits]] and [[vegetables]], can help to reduce the production of the Hydroxyl Radical.
==Environmental Impact==
Hydroxyl radicals are often referred to as the "atmosphere's detergent" due to their ability to cleanse the air of pollutants. They react with methane and other greenhouse gases, influencing the atmospheric lifetime of these compounds. This reactivity is crucial for maintaining the balance of atmospheric chemistry and mitigating the effects of air pollution.


== See Also ==
==Applications==
In industrial and environmental applications, hydroxyl radicals are utilized in advanced oxidation processes (AOPs) for water and wastewater treatment. These processes involve generating hydroxyl radicals to degrade organic contaminants, making them an effective method for purifying water.


==Related Pages==
* [[Free radical]]
* [[Reactive oxygen species]]
* [[Reactive oxygen species]]
* [[Oxidative stress]]
* [[Oxidative stress]]
* [[Antioxidants]]
* [[Atmospheric chemistry]]
* [[Advanced oxidation process]]


== References ==
<references />
[[Category:Biochemistry]]
[[Category:Free radicals]]
[[Category:Free radicals]]
[[Category:Oxygen]]
[[Category:Reactive oxygen species]]
{{stub}}
[[Category:Atmospheric chemistry]]
<gallery>
File:Pyrithione-tautomerism-2D-skeletal.png|Pyrithione tautomerism 2D skeletal
File:Energy-levels-HO.jpg|Energy levels of hydroxyl radical
</gallery>

Latest revision as of 22:45, 21 February 2025

Highly reactive species in chemistry



Hydroxyl Radical[edit]

The hydroxyl radical (•OH) is a highly reactive species in chemistry, known for its role in various chemical and biological processes. It is a neutral form of the hydroxide ion (OH_) and is one of the most reactive free radicals. Hydroxyl radicals are often involved in oxidation reactions and are crucial in atmospheric chemistry, particularly in the degradation of pollutants.

Structure of the hydroxyl radical.

Formation[edit]

Hydroxyl radicals are typically formed through the photolysis of water vapor in the atmosphere, a process driven by ultraviolet (UV) radiation. This can be represented by the following reaction:

H_O + UV _ •OH + H•

In addition to photolysis, hydroxyl radicals can also be generated through the reaction of ozone (O_) with water vapor or through the Fenton reaction, where hydrogen peroxide (H_O_) reacts with iron ions (Fe__):

H_O_ + Fe__ _ •OH + OH_ + Fe__

Reactivity[edit]

The hydroxyl radical is extremely reactive due to its unpaired electron, making it a potent oxidizing agent. It can react with a wide range of organic and inorganic substances, often initiating chain reactions. In the atmosphere, hydroxyl radicals play a critical role in the breakdown of pollutants such as volatile organic compounds (VOCs) and nitrogen oxides (NOx), contributing to the formation of secondary pollutants like ozone.

Biological Significance[edit]

In biological systems, hydroxyl radicals are produced as byproducts of normal metabolic processes. They are part of the reactive oxygen species (ROS) family, which includes superoxide anions (O__) and hydrogen peroxide (H_O_). While ROS are essential for certain cellular functions, excessive production of hydroxyl radicals can lead to oxidative stress, damaging cellular components such as DNA, proteins, and lipids.

Pyrithione tautomerism 2D skeletal

Environmental Impact[edit]

Hydroxyl radicals are often referred to as the "atmosphere's detergent" due to their ability to cleanse the air of pollutants. They react with methane and other greenhouse gases, influencing the atmospheric lifetime of these compounds. This reactivity is crucial for maintaining the balance of atmospheric chemistry and mitigating the effects of air pollution.

Applications[edit]

In industrial and environmental applications, hydroxyl radicals are utilized in advanced oxidation processes (AOPs) for water and wastewater treatment. These processes involve generating hydroxyl radicals to degrade organic contaminants, making them an effective method for purifying water.

Related Pages[edit]

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