Diiodohydroxypropane: Difference between revisions
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== Diiodohydroxypropane == | == Diiodohydroxypropane == | ||
'''Diiodohydroxypropane''', also known as 1,3-diiodo-2-propanol, is an organoiodine compound with the chemical formula C_H_I_O. It is a halogenated alcohol, characterized by the presence of two iodine atoms and a hydroxyl group attached to a propane backbone. | '''Diiodohydroxypropane''', also known as 1,3-diiodo-2-propanol, is an organoiodine compound with the chemical formula C_H_I_O. It is a halogenated alcohol, characterized by the presence of two iodine atoms and a hydroxyl group attached to a propane backbone. | ||
Revision as of 13:49, 16 February 2025
Diiodohydroxypropane
Diiodohydroxypropane, also known as 1,3-diiodo-2-propanol, is an organoiodine compound with the chemical formula C_H_I_O. It is a halogenated alcohol, characterized by the presence of two iodine atoms and a hydroxyl group attached to a propane backbone.
Chemical Structure
Diiodohydroxypropane consists of a three-carbon chain, with iodine atoms attached to the first and third carbon atoms, and a hydroxyl group attached to the second carbon atom. This configuration gives the compound its unique chemical properties, including its reactivity and solubility characteristics.
Synthesis
The synthesis of diiodohydroxypropane typically involves the halogenation of glycerol or other suitable precursors. The process requires careful control of reaction conditions to ensure the selective addition of iodine atoms to the desired positions on the carbon chain.
Applications
Diiodohydroxypropane is used in various chemical applications, particularly in organic synthesis. Its reactivity makes it a useful intermediate in the preparation of more complex organoiodine compounds. Additionally, it may be used in research settings to study the effects of halogenation on alcohols.
Safety and Handling
As with many organoiodine compounds, diiodohydroxypropane should be handled with care. It is important to use appropriate personal protective equipment (PPE) and work in a well-ventilated area to minimize exposure to potentially harmful vapors. Proper storage conditions should be maintained to prevent degradation or unwanted reactions.
