It is important that all JC A-Level H2 Chemistry students understand Electrophilic Substitution (Aromatic) Reaction Mechanism of Arenes. In this YouTube Video, you will learn the step-by-step mechanism with Benzene C6H6 as an example. We always emphasised this mechanism in our recommended H2 Chemistry Tuition Classes in Singapore whereby i’m the principal Chemistry tutor.
Click on the following link for Video on Electrophilic Aromatic Substitution Reaction Mechanism.
Length of video: 9.33 mins
Let’s recap what we have learned from the above video.
First, we look at the meaning of arenes: they are aromatic hydrocarbons and the simplest and most common example is benzene ring, C6H6.
Benzene molecule is planar, symmetrical and non-polar. In the hexagonal ring, there are 3 alternating C=C bonds. Benzene is stabilised as a result of delocalisation of these π electrons in the C=C bonds.
Hence, benzene is resistant to oxidation reaction and electrophilic addition reaction, because these reactions would destroy the cyclic π resonance stabilised system.
Instead, benzene readily undergoes Electrophilic Substitution Reactions in which the ring system is preserved.
Benzene molecule is “electron-rich” and thus reactions of benzene would involve the attack by electrophiles on the π electrons of the benzene ring.
3 Steps in Electrophilic Substitution Reaction Mechanism:
1. Production of electrophile i.e. electron deficient species which are “electron-loving”
2. Formation of carbocation intermediate from the attack of electrophile on the benzene ring
3: Expulsion of H+ ion from the carbocation intermediate to form the aromatic product and the delocalised π system is preserved i.e. benzene ring is re-formed
In the next two blog posts on Organic Chemistry, we will take a look at the two most common reactions (in Singapore’s JC GCE A-Level H2 Chemistry Exam Syllabus Code 9729) involving Electrophilic Substitution Reaction Mechanism of Arenes, namely:
a) Halogenation – Substitution reactions with Chlorine and with Bromine
b) Nitration – Substitution reactions with a Nitration Mixture i.e. Conc. H2SO4 and Conc. HNO3
I hope you find the content easy for your understanding and if you have any questions, leave me a comment below. Feel free to share this blog post with your friends.
Subscribe to my blog to receive 2 updates per month sent to your email!
PS: Under related articles below, there are several blog post discussions and questions related to other Organic Chemistry concepts. You can also do a keyword search using the search box at the top right hand corner.