Chapter 10 Haloalkanes and Haloarenes Short Notes Best

 Chapter 10 Haloalkanes and Haloarenes Short Notes pdf

Haloalkanes : RX where R is alkyl group and halogen attached to sp ³ hybridised carbon atom. 

Haloarenes : ArX where Ar is arene and halogen attached to sp ² hybridised carbon atom. X is halogen atom. 

Aliphatic halogen derivatives are called alkyl halides or haloalkanes. Aromatic halogen derivatives are called Aryl halides or haloarenes. 

Haloalkanes and haloarenes are obtained by the replacement of a hydrogen atom of an alkane and arene respectively by a halogen atom. 

 --Watch Lecture 01 

--Learn Important Reactions in Haloalkanes and Haloarenes

A. Methods of Preparation Haloalkanes 

 1. From Alcohols 

Groove's Process - Primary and Secondary alcohols by treatment with HCl gas in the presence of anhydrous Zinc chloride give chloroalkanes

Other methods involve reacting alcohols with KI/Phosphoric acid 

Alcohols react with Phosphorous pentahalides or trihalides to form alkyl halides

 Best method for obtaining haloalkanes from alcohols is to react alcohols with thionyl chloride

Watch Lecture 02

 2. From Hydrocarbons 

Alkanes undergo Free radical Substitution by Reacting with chlorine or bromine in the presence of sunlight. Propane or other higher alkanes give mixture of alkyl halides and methane undergo substitution to give chloromethane which finally form Carbon tetrachloride.

Substitution of Allylic hydrogen by chlorine atom

Toluene gives Benzyl chloride in free radical substitution with chlorine.

Alkenes react with Halogen Acid ( HCl or HBr ) according to Markovnikov's Rule 

Reaction of alkenes with bromine in carbon tetrachloride is used as test for detection of unsaturation as red brown colour of bromine disappear in the reaction.

               Watch Lecture 02 by gtctuition 

 3. By Halogen Exchange Method

 4. From Silver Acetate

           Watch Lecture 02 by gtctuition

 B. Methods of Preparation of Haloarenes 

 1. Direct Halogenation of Arenes

      Watch lecture 03 

 2. From Diazonium Salt ( Benzene diazonium chloride ) 

     Watch Lecture 03

 C. Physical Properties of haloalkanes and haloarenes 

     Watch Lecture 04 

 D. Chemical Properties Haloalkanes 

 1. Nucleophilic Substitution Reactions
 2. Elimination Reactions 
 3. Reactions with Active Metals
 4. Reduction

Watch lecture 04 on Nucleophilic Substitution Reactions

Types of Nucleophilic Substitution Reactions 

SN1 & SN2 Reactions and Order of reactivity of Haloalkanes towards Nucleophilic Substitution

Substitution Nucleophilic Bimolecular

Substitution Nucleophilic Unimolecular

Watch Lecture 05 on SN1 & SN2 & Stereochemistry  by gtctuition

E. Stereochemistry : 

Optically Active Compounds, Enantiomers, Racemic Mixture

Watch Lecture 06 for Elimination Reactions

 F. Chemical Properties of Haloarenes :

Haloarenes are less reactive than haloalkanes because of Partial double bond character in Carbon-Halogen bond and sp2 hybridisation of Carbon atom bonded to Halogen. Partial double bond character is explained by resonance structures of chloro benzene.

Watch Lecture 07 - Chemical Properties of Haloarenes by gtctuition

 1. Nucleophilic Substitution Reactions : 

Dows Process, Formation of Aniline from Chlorobenzene, Formation of Benzene nitrile from chlorobenzene

 2. Electrophilic Substitution Reactions : 

Friedel Craft Alkylation and acylation of chlorobenzene, nitration of Haloarenes

 3. Reactions with Active Metals : 

Wurtz fitting reaction, fitting reaction

 4. Reduction

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* Notes Mukul Sir 

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