In chemistry, vinylidenes are compounds with the functional group C=CH2. An example is 1,1-dichloroethene (CCl2=CH2) commonly called vinylidene chloride. It and vinylidene fluoride are precursors to commercially useful polymers.
Vinylidene chloride and fluoride can be converted to linear polymers polyvinylidene chloride (PVDC) and polyvinylidene fluoride (PVDF). The polymerization reaction is:
n CH2=CX2 → (CH2−CX2)n
These vinylidene polymers are isomeric with those produced from vinylene monomers. Thus polyvinylene fluoride from vinylene fluoride (HFC=CHF).
Although vinylidenes are only transient species, they are found as ligands in organometallic chemistry. They typically arise by the protonation of metal acetylides or by the reaction of metal electrophiles with terminal alkynes. The complex chloro(cyclopentadienyl)bis(triphenylphosphine)ruthenium readily forms such complexes:[1]
CpRu(PPh3)2Cl + RC2H + KPF6 → [CpRu(PPh<sub>3</sub>)<sub>2</sub>(=C=C(H)Ph]PF6 + KCl
Featuring divalent carbon, vinylidenes are unusual species in organic chemistry. They are unstable as solids or liquids but can be generated as stable dilute gases. The parent member of this series is methylidenecarbene. With the formula :C=CH2), it is a carbene.
In IUPAC nomenclature, 1,1-ethenediyl describes the connectivity >C=CH2. The related species ethenylidenes have the connectivity =C=CH2.