Show transcribed image text. • The chain-growth polymerization proceeds by one of the three mechanisms: a) Radical polymerization b) Cationic polymerization c) Anionic polymerization Step-growth (e.g. Chain addition polymerization also referred to as chain-growth polymerization technique is a chain reaction in which the growth of a polymer chain proceeds exclusively by reaction (s) between monomers (s) and active site (s) on the polymer chain with regeneration of … There exist several different categories of polymerization reactions, the most notable of which being step-growth polymerization, … Electron-deficient (n-type) conjugated materials are commonly prepared via step-growth methods with limited control over the molecular weight and molecular weight distribution of the resulting polymers. Show transcribed image text. Which Of The Following Monomers Cannot Undergo Chain Growth Polymerization? Chain growth polymerization is a polymerization technique where unsaturated monomer molecules add onto the active site on a growing polymer chain one at a time. Overview of This Section. Polymerization is a process through which a large number of monomer molecules react together to form a polymer. condensation) versus Chain-Growth (e.g. Chain-growth Polymerization Anionic Vinyl Polymerizations. The chain growth part you already know, and for binary copolymerization we mean that there will only be two different monomers, which we will call A and B. This question hasn't been answered yet Ask an expert. Expert Answer . We will be considering step and chain polymerization independently, and in great depth, in the coming lessons, but for now you should have a good idea of the similarities and … ATRP and NMP control chain growth by reversible termination. 7.81). Reaction heat is efficiently dispersed by the aqueous medium. Characteristics of chain-growth polymerisation Growth by addition of monomer only at one end or both ends of chain Some monomer remains even at long reaction times Different steps operate at different stages of mechanism (i.e. A monomer-soluble initiator is added in order to initiate chain-growth polymerization. So care to guess what the active chain end is in anionic vinyl polymerization? (1 Point) CH2=CH2 CH2=CHCN CH2=CHCOOR COOH-CH2-COOH. growth of polymer occurs by adding monomers to relatively few polymer chains; initiation is required. Now because we have two different monomers, that means we can also have two different active centers: -A* and –B*. RAFT living polymerizations control chain growth through reversible chain transfer. See the answer. The macromolecules produced from a polymerization may have a linear or a branched structure. Expert Answer . There are a limited number of these active sites at any moment during the polymerization which gives this method its key characteristics. The previous segment dealt with free radical polymerization in which the active chain end is, you guessed it, a free radical. During propagation, only monomers react to the active site at the end of the growing chain. They can also assume the shape of a complex, three-dimensional network. Draw The Polymer Formed By The Chain-growth Polymerization Of The Following Molecule: Question: Draw The Polymer Formed By The Chain-growth Polymerization Of The Following Molecule: This problem has been solved! We designate the active enter with an * because it could be any number of species, such as radical, anion, or cation. free radical) Polymerization; Step-Growth: Chain-Growth: All molecules present (monomer, oligomer, polymer) can react with any other molecule. 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