Methylidene group

The blue part of this diagram of a propene molecule is a methylidene group.

In organic chemistry, a methylidene group is any part of a molecule that consists of two hydrogen atoms bound to a carbon atom, which is connected to the remainder of the molecule by a double bond.^[1] The group may be represented as =CH₂, where the '=' denotes the double bond.

This stands in contrast to methylene, the −CH₂− group, which is connected to the rest of the molecule by two single bonds.^[2] The distinction is often important, because the double bond is chemically different from two single bonds.

3-Methylidenecycloprop-1-ene is named as a cyclopropene with a methylidene substituent.

The same name (methylidene) was used for the distinct molecule CH₂, also known as carbene.^[3] Formerly the methylene name was used for all three isomers (methylene, methylidene, and carbene).

Many organic compounds are named and classified as if they were the result of substituting a methylidene group for two adjacent hydrogen atoms of some parent molecule (even if they are not actually obtained that way). Thus, for example, methylenecyclopropene is named after cyclopropene.

References[edit]

^ "methylidene (preferred IUPAC name)" (PDF). p. 314.
^ "methylene (preferred IUPAC name)" (PDF). p. 58.
^ "methylidene (preferred IUPAC name)" (PDF). p. 921.

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[1] "methylidene (preferred IUPAC name)" (PDF). p. 314.

[2] "methylene (preferred IUPAC name)" (PDF). p. 58.

[3] "methylidene (preferred IUPAC name)" (PDF). p. 921.

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