Alkynes:
- These are unsaturated hydrocarbons containing at least one triple bond between two carbons.
- General formula is Cn H2n-2, (n = 2, 3, 4, 5, …).
- Acetylene is first member
The IUPAC name is derived from the IUPAC name
of alkanes by replacing ending ‘ane’ by ‘yne’ along with the position of triple
bond e.g. Alkane–ane + yne = Alkyne.
Ex: CH3—CH2C≡CH but-1-yne
Value
of n
|
Formula
|
Structure
|
Common
name
|
IUPAC
name
|
2
|
C₂H₂
|
HC ≡ CH
|
Acetylene
|
Ethyne
|
3
|
C₃H₄
|
CH₃ - C ≡ CH
|
Methyl Acetylene
|
Propyne
|
Alkynyl groups:
Residual part left after the removal of one H atom from
alkyne is known as alkynyl group. According to IUPAC nomenclature, these groups
are named by replacing terminal (e) of alkyne by “yl” e.g.
HC≡C–
|
ethynyl
|
HC≡C—CH2–
|
2-propynyl
|
—C≡C—CH3
|
1-propynyl
|
Structure of acetylene:
- Acetylene contains one ‘sigma’ bond and two ‘pi’ bonds.
- Sigma bond is formed by the head on overlapping of the two sp hybridized orbitals of the two carbon atoms.
- The remaining sp hybridized orbital of each carbon atom undergoes overlapping along the inter-nucleus axis with 1s orbital of the two hydrogen atoms forming two C – H bonds. H – C - C bond angle is 180⁰C.
- The unhybridised orbitals are perpendicular to the plane
of C - C sigma bond these are on sidewise overlapping gives two
‘pi’ bonds.
- Carbon–carbon bond strength is more than that of alkenes and alkanes and acetylene molecule is linear structure.
Isomerism:
- Isomerism in alkenes starts from four carbons.
CH₃ - CH₂ - C ≡ CH – 1 - butyne
CH₃ - C ≡ C - CH₃ - 2 - Butyne - These are positional isomers due to different positions of triple bond.
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