What is the Difference Between Anionic and Cationic Polymerization?
🆚 Go to Comparative Table 🆚Anionic and cationic polymerization are two types of chain growth polymerization reactions. Both reactions have the same mechanism, but there are differences in the initiators and the types of monomers involved.
Anionic Polymerization:
- Involves monomers that are electron-deficient and capable of stabilizing the negative charge of the carbanion.
- Reactions proceed at a relatively slower speed because the negative charge on the ions becomes less reactive when they are stable.
- Typically yields more regular polymers with less branching.
- Initiated by nucleophilic addition to a monomer, with initiators such as hydroxide, cyanide, alkoxide, or carbanion.
Cationic Polymerization:
- Involves monomers that are electron-rich and capable of stabilizing the positive charge of the carbocation.
- Reactions proceed at a relatively faster speed because the cationic ions become more reactive.
- Can be considered another category of chain growth polymerization, with reactions initiated by an active cationic species.
- Initiators include electrophilic agents, such as proton donors.
Both polymerization reactions are sensitive to the solvent used. While there are only a limited number of monomers that can facilitate cationic polymerization, many polymers can execute anionic polymerization.
Comparative Table: Anionic vs Cationic Polymerization
Here is a table comparing anionic and cationic polymerization:
| Feature | Anionic Polymerization | Cationic Polymerization |
|---|---|---|
| Definition | A type of chain growth polymerization that involves electron-deficient monomers capable of stabilizing a negative charge. | A type of chain growth polymerization that involves electron-rich monomers capable of stabilizing a positive charge. |
| Initiation Mechanism | Initiated by the removal of a proton from a monomer by a strong base or by a carbanion. | Initiated by the reaction of a cation with a monomer, resulting in the formation of a reactive carbocation. |
| Initiators | Initiators include nucleophiles such as hydroxide, cyanide, alkoxide, or carbanion. | Initiators include electrophilic agents. |
| Reaction Rate | Reactions proceed at a relatively slower speed because the negative charge on the ions becomes less reactive when they are stable. | Reactions proceed at a relatively faster speed because the cationic ions become more reactive when they are stable. |
| Yield | Typically yields more regular polymers with less branching. | Typically yields polymers with more branching. |
| Monomer Compatibility | Limited to a smaller number of monomers, such as olefins containing electron-donating substituents and heterocycles. | Compatible with a wider range of monomers. |
| Solvent Sensitivity | Both polymerization reactions are sensitive to the solvent used. | Both polymerization reactions are sensitive to the solvent used. |
Both anionic and cationic polymerization reactions have the same mechanism, but the reaction initiator is different. Anionic polymerization reactions are initiated by an active anionic species, whereas cationic polymerization reactions are initiated by an active cationic species.
- Cationic vs Anionic Polyelectrolyte
- Catenation vs Polymerisation
- Free Radical vs Ionic Polymerization
- Cationic vs Anionic Dyes
- Addition Polymerization vs Condensation Polymerization
- Addition vs Radical Polymerization
- Polymer vs Copolymer
- Dimerization vs Polymerization
- Suspension vs Emulsion Polymerization
- Copolymer vs Condensation Polymer
- Copolymer vs Terpolymer
- Organic vs Inorganic Polymers
- Polymer vs Monomer
- Cross Linked Polymer vs Linear Polymer
- Polymer vs Biopolymer
- Prepolymer vs Oligomer
- Resin vs Polymer
- Copolymer vs Homopolymer
- Atactic Isotactic vs Syndiotactic Polymer