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Alkynes

1. Introduction

A triple bond gives an alkyne four fewer hydrogen atoms than the corresponding alkane. There fore the triple bond contributes two degree of unsaturation (DU).

Alkynes are not as common in nature as alkenes, but some plants do use alkynes to protect themselves against disease or predators. Acetylene is by far the most important commercial alkyne. Acetylene is an important industrial feedstock but its largest use is as the fuel for the oxyacetylene welding torch.


2. Structure and Bonding in Alkynes

(1) Alkynes are hydrocarbons that contain carbon -carbon triple bond.

(2) Alkynes are also called acetylenes because they are derivatives of acetylene.

(3) The general formula is : CnH2n-2. (one triple bond)

(4) In alkyne C≡C bond length is 1.20 Å.

(5) Its bond energy is 192 kcal. mol-1

(6) The hybridization of carbon atoms having triple bond (C≡C) in alkynes is sp

(7) Overlapping of these sp hybrid orbitals with each other and with the hydrogen orbitals gives the sigma bond framework which is linear (180º) structure.

(8) Two p bonds result from overlap of the two remaining unhybridized p orbitals on each carbon atom. These orbitals overlap at right angles (90º) to each other, forming one p bond with electron density above and below the C - C sigma bond, and the other with electron density in front and in back of the sigma bond. This result in a cylindrical p electron cloud around s bonded structure

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Note : Any type of stereoisomerism does not arise in acetylenic bond due to linearity of C º C bond.

Ex.1 Cis-trans isomerism is not possible in alkynes because of :

Ans. 180º bond-angle at the carbon-carbon triple bond.

Ex.2 Draw the geometrical isomers of hept -2-en-5-yne?

Ans. Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


Nomenclature of Alkynes

  • Common system:  According to the common system, different members of alkynes are named in the form of derivatives of acetylene.
  • IUPAC System:  According to the IUPAC system, the nomenclature of alkynes is very similar to the nomenclature of alkanes. Hence, the naming is similar just the suffix “yne” replaces the suffix “ane” of the corresponding alkanes. Moreover, the numbering of position starts with the first carbon having the triple bond.

 

3. Physical Properties of Alkynes:

(1) Alkynes are relatively nonpolar (w.r.t. alkyl halides and alcohols) and are nearly insoluble in water (but they are more polar than alkenes and alkanes). They are quite soluble in most organic solvents, (acetone, ether, methylene chloride, chloroform and alcohols).

(2) Acetylene, propyne, and the butynes are gases at room temperature, just like the corresponding alkanes and alkenes. In fact, the boiling point of alkynes are nearly the same as those of alkanes and alkenes with same number of carbon atoms.


4. Table

Name

Formula

M.p.,°C

B.P., °C

Relative density (at 20°C)

Acetylene

HC = CH

- 82

- 75

 

Propyne

HC=CCH3

- 101.5

- 23

 

1-Butyne

HC = CCH2CH3

- 122

9

 

1-Pentyne

HC = C(CH2)2CH3

- 98

40

0.695

2-Butyne

ch3c = cch3

- 24

27

0.694

2-Pentyne

ch3c = cch2ch3

- 101

55

0.714

3-Methyl-1-butyne

HC = CCH(CH3)2

 

29

665

 

5. TABLE - COMPARATIVE STUDY OF ALKANES, ALKENES, ALKYNES

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


Ex.3 Which has a longer carbon-methyl bond, 1-butyne or 2-butyne. Explain?

Ans. The bond from the methyl group in 1-butyne is to an sp3-hybridised carbon and so is longer than the bond from the methyl group in 2-butyne, which is to an sp-hybridised carbon.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


Ex.4 Arrange the following bond-lengths in increasing order.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Ans. (d) < (b) < (c) < (e) < (a)


Q.3 Arrange C - H bond -lengths (a,b,g) in increasing order as shown : -

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


6. Laboratory Test of Alkyne

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


7. Laboratory test of terminal alkynes

When triple bond comes at the end of a carbon chain. The alkyne is called a terminal alkyne.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

1-Butyne, terminal alkyne

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

 

8. Acidity of Terminal Alkynes:

Terminal alkynes are much acidic than other hydrocarbons due to more electronegative sp hybridized carbon. The polarity (acidity) of a C - H bond varies with its hydridization, increasing with the increase in percentage's character of the orbitals.

sp3 < sp2 < sp

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

The hydrogen bonded to the carbon of a terminal alkyne is considerably more acidic than those bonded to carbons of an alkene and alkane (see section). The pKa values for ethyne, ethene & ethane illustrate this point

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

The order of basicity of their anions is opposite to that of their relative acidity:

Relative Basicity

CH3CH2: > H2C = CH:- > HC≡C:-

Relative acidity

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

pKa 15.7 16-17 25 38 44 50

Relative Basicity

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


9. General methods of preparation :

(I) By dehydro-halogenation of gem and vic dihalide:

General Reaction: 
RCH = CHR + Br2Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

                                  A vic - dibromide

The dehydrohalogenations occur in two steps, the first yielding a bromoalkene and the second alkyne.

Mechanism :

Step 1

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Step 2

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

e.g. CH3CH2CH = CH2 Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEETAlkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET CH3CH2C≡CH

e.g. Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET [CH3CH2C º CH] Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET CH3CH2C≡C!Na+

 

CH3CH2C≡C:-Na  Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET CH3CH2C≡CH + NH3  + NaCl

 

General Reaction
  Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Ex.5 Give the structure of three isomeric dibromides that could be used as starting materials for the preparation of 3,3-dimethyl-1-butyne.

Sol. (I) Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET 
(II) Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET 
(III) Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Ex.6 Show the product in the following reaction

 

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET ? 

Sol. Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


Q.4. 1,1-dibromopentane on reaction with fused KOH at 470 K gives 2-pentyne

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

1,1-dibromo pentane 2-pentyne

Give the mechanism of this rearrangement.

(II) By Dehalogenation of Tetrahaloalkane:

General Reaction
  Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

(III) Replacement of The Acetylenic Hydrogen atom of terminal Alkynes.

General Reaction
  Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Sodium ethynide and other sodium alkynides can be prepared by treating terminal alkynes with sodium amide in liquid ammonia.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

(R or R' or both may be hydrogen)

The following example illustrates this synthesis of higher alkyne homologues.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

(R'-X must be an unhindered primary halide or tosylate)

The unshared electron pair of the alkynide ion attacks the back side of the carbon atom that bears the halogen atom and forms a bond to it. The halogen atom departs as a halide ion.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

e.g. Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

 

Addition of acetylide ions to carbonyl groups

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

e.g. Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Sodium Propanal 1-Pentyn-3-ol acetylide

e.g. Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

3-Methyl-1-butyne 4-Methyl-1-Phenyl pent-2-yne-1-ol

 

e.g. Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Cyclohexanone 1-Ethynylcyclohexanol(3º)


Ex.7 Show how to synthesize 3-decyne from acetylene along with necessary alkyl halides.

Sol. H - C≡C - H Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET H3C - (CH2)5 - C≡C - H

1-Octyne

H3C - (CH2)5 - C≡C - H Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET CH- (CH2)5 - C≡C - CH2CH3

1-Octyne 3-Decyne


Q.5 Show how you would synthesize the following compound, beginning with acetylene and any necessary additional reagents.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


(IV) By Kolble's Electrolytic synthesis.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


(V) By Hydrolysis of carbides

CaC2  + 2HOH → C2H2  + Ca(OH)2

MgC2 + 2HOH → C2H2  + Mg(OH)2

Mg2C3 + 4HOH→ CH3 - C≡CH + 2Mg(OH)2


10. Chemical Properties of Alkyne

(i) Acidic Character Of Alkynes

Alkynes are one of the simplest hydrocarbons known to us. They have a general formula of CnH2n-2. Alkynes belong to the family of unsaturated hydrocarbons that is; they contain both sigma and pi bond linkages between carbon and hydrogen.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Relative Acidity of Alkynes

  • The acidity of alkynes is due to their ability to lose hydrogen atom to form alkynideions. Thus, alkynes act as Brønsted-Lowry acids. The triple bonded carbon atom in alkynes is “sp” hybridized. Due to the high percentage of “s” character (50%) in alkynes, the “sp” hybridized orbitals of carbon atom in alkynes exhibit high electronegativity. These attract the C-H bond of alkynes to a great extent. Thus, alkyne molecules can easily lose hydrogen atom forming alkynide ions. Hence, we can say that the hydrogen atom attached to the triply bonded carbon atom is acidic in nature.
  • The acidity of alkynes is greater than the acidity of alkanes and alkenes as the carbon atom in alkanes and alkenes are “sp3” and “sp2” hybridized respectively. Hence, these molecules contain a smaller percentage of “s” character in comparison to alkynes. Thus, the electronegativity of the carbon atom in these cases is lesser than alkynes. Hence, alkanes and alkenes don’t show the reactions with bases to liberate hydrogen gas. It can further be noted that only hydrogen atom attached to a triply bonded carbon atom are acidic not the other hydrogen atoms in the alkyne chain. The general trend in acidity is seen as:

HC≡CH > H2C=CH> CH3–CH3

HC≡CH > CH3–C≡CH >> CH3–C≡C–CH3

(ii) Addition of dihydrogen

Alkynes react with dihydrogen in the presence of catalysts such as Pt/Pd/Ni in order to form alkenes. The alkenes formed, further react with dihydrogen to form alkanes. It has been observed that in most reactions triple bond is converted into a double bond and a double bond is then converted into a single bond due to the addition reaction with dihydrogen.

The catalyst that is involved in the case of rhodium, nickel, palladium, and platinum. Hydrogenation is a step-by-step process in which initially an alkene is formed. After which it undergoes further hydrogenation to form an alkane

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Slowing down the reaction in the intermediate stage is actually quite impossible as the whole reaction is really smooth. But some alkenes are isolated with the use of poisoned catalysts. One such example of a poisoned catalyst is the Lindlar catalyst.

Lindlar catalyst

Lindlar catalyst is the combined form of palladium which is coated with quinoline and absorbed on calcium carbonate.

(iii) Addition of Halogen (X2=Cl2, Br2)

General Reaction R - C º C - R' Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET R - CX = CX - R' Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET(Anti-addition)

Ex.9 Explain why alkynes are less reactive than alkenes toward addition of Br2.

Sol. The three memebered ring bromonium ion fromed from the alkyne (A) has a full double bond causing it to be more strained and less stable than the one from the alkene (B).

 

(A) Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET (B) Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

(A) less stable than (B)

Also, the C's of A that are part of the bormonium ion have more s-character than those of B, further making A less stable than B.

(iv) Addition of Hydrogen halides (Were HX = HCl, HBr, HI)

General Reaction 

R - C≡C - R' Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEETAlkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

e.g. Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET
 

e.g. CH3-C≡C - CH2CH3  HBr → Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

e.g. H - C≡C - CH2CH2CH3 Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

(v) Addition of water

Alkynes are immiscible in water. They do not react with water under normal conditions. Alkynes may react with water in the presence of dilute sulphuric acid and mercuric sulphate at a temperature of 333K. This results in the formation of carbonyl compounds.

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

(vi) Polymerisation 

(a) Linear polymerisation: Under suitable conditions, linear polymerisation of ethyne takes place to produce polyacetylene or polyethyne which is a high molecular weight polyene containing repeating units of (CH = CH – CH = CH ) and can be represented as —( CH = CH – CH = CH)n— Under special n conditions, this polymer conducts electricity

Thin-film of polyacetylene can be used as electrodes in batteries. These films are good conductors, lighter and cheaper than metal conductors.

(b) Cyclic polymerisation: Ethyne on passing through a red hot iron tube at 873K undergoes cyclic polymerization. Three molecules polymerise to form benzene, which is the starting molecule for the preparation of derivatives of benzene, dyes, drugs and large a number of other organic compounds. This is the best route for entering from aliphatic to aromatic compounds as discussed below:

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET


(vii) Reduction to alkenes

(a) By Lindlar's reagent

General Reaction 

Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

(b) By Brich reduction

General Reaction R - C º C - R' Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET (anti addition)

 

e.g. Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

 

(c) By hydroboration reduction

General Reaction R - C º C - R' Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

Ex.8 Identify (X) and (Y) in the following reaction

CH3-CH2 - C º CHAlkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

 

Ans. (X) : Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET (Y) : Alkynes: Nomenclature, Properties & Preparation | Chemistry Class 11 - NEET

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FAQs on Alkynes: Nomenclature, Properties & Preparation - Chemistry Class 11 - NEET

1. What is the nomenclature of alkynes?
Ans. The nomenclature of alkynes follows the IUPAC system. The parent chain is selected based on the longest continuous chain containing the triple bond. The suffix "-yne" is added to the name of the corresponding alkane, indicating the presence of a triple bond. Additionally, the position of the triple bond is indicated by a numerical prefix before the parent name.
2. What are the properties of alkynes?
Ans. Alkynes have several unique properties. They are generally less reactive than alkenes but more reactive than alkanes. Alkynes have higher boiling points and densities compared to alkanes and alkenes due to the presence of stronger London dispersion forces. They are also more acidic than alkanes and alkenes, allowing them to undergo acid-base reactions. Alkynes can undergo addition reactions to form compounds with double or triple bonds.
3. How can alkynes be prepared?
Ans. Alkynes can be prepared through various methods. One common method is the elimination reaction of vicinal dihalides (Geminal dihalides) in the presence of a strong base, such as sodium amide (NaNH2), to form alkynes. Another method involves the dehydrohalogenation of alkyl halides using a strong base, such as potassium hydroxide (KOH), to eliminate a hydrogen halide and form an alkyne. Additionally, alkynes can be synthesized by the partial reduction of alkynes or through alkylation reactions of acetylide anions.
4. What are the uses of alkynes?
Ans. Alkynes have various uses in different industries. They are used in organic synthesis for the production of pharmaceuticals, dyes, and plastics. Alkynes are also utilized in the manufacturing of rubber, adhesives, and solvents. In the field of organic chemistry, alkynes serve as important building blocks for the synthesis of complex molecules. Furthermore, alkynes find applications in fuel cells and as starting materials for the production of graphene.
5. How do alkynes differ from alkenes and alkanes?
Ans. Alkynes differ from alkenes and alkanes in terms of their molecular structure and chemical properties. Alkanes contain only single bonds between carbon atoms, alkenes have at least one double bond, and alkynes have at least one triple bond. This difference in bonding leads to variations in physical properties such as boiling points and reactivity. Alkynes are more reactive than alkanes but less reactive than alkenes.
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