ROH + HOR' --> ROR' + H2O alcohol alcohol ether
This direct reaction is not suitable in most synthetic pathways. There exist several milder methods to produce ethers.
Like esters, ethers are limited in their ability to form hydrogen bonds. They tend to be more hydrophobic than other, analogous condensation products (such as esters or amides). They are resistant to hydrolysis.
Ether which have a CH group next to the oxygen form peroxides which are higly explosive. Due to this and the low ignition point of diethylether, diethylester is one of the risc factors in laboratories.
In addition to the generic meaning, the term "ether" also commonly refers to the specific compound diethyl ether, CH3CH2OCH2CH3, also known as ethoxyethane. Diethyl ether[?] was one of the first anesthetics used in surgery.
Despite their comparably attenuated reactivity, ethers can act as Lewis acids (see Acid-base reaction theories). For instance, diethyl ether forms a complex with boron compounds, such as boron trifluoride etherate, F3B:O(CH2CH3)2
The nomenclature of ethers is as follows. CH3-CH2-O-CH3 is called ethoxymethane. To find the name, separate the compound into the hydrocarbon chains before and after the oxygen. In this case, ethane (C2H5-) and methane (-CH3) are before and after the oxygen, respectively. Change the ethane into its reduced form, eth, and place oxy between the names. Ethoxymethane is the result. CH3-CH2-CH2-O-CH2-CH3 is propoxyethane.
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