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Degree of polymerization

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The degree of polymerization, or DP, is the number of monomeric units in a macromoleculeorpolymeroroligomer molecule.^[1]^[2]^[3]

For a homopolymer, there is only one type of monomeric unit and the number-average degree of polymerization is given by ${\overline {DP}}_{n}\equiv {\overline {X}}_{n}={\frac {{\overline {M}}_{n}}{M_{0}}}$ , where ${\overline {M}}_{n}$ is the number-average molecular weight and $M_{0}$ is the molecular weight of the monomer unit. The overlines indicate arithmetic mean values. For most industrial purposes, degrees of polymerization in the thousands or tens of thousands are desired. This number does not reflect the variation in molecule size of the polymer that typically occurs, it only represents the mean number of monomeric units.

Some authors, however, define DP as the number of repeat units, where for copolymers the repeat unit may not be identical to the monomeric unit.^[4]^[5] For example, in nylon-6,6, the repeat unit contains the two monomeric units —NH(CH₂)₆NH— and —OC(CH₂)₄CO—, so that a chain of 1000 monomeric units corresponds to 500 repeat units. The degree of polymerization or chain length is then 1000 by the first (IUPAC) definition, but 500 by the second.

Step-growth and chain-growth polymerization

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Instep-growth polymerization, in order to achieve a high degree of polymerization (and hence molecular weight), ${\overline {X}}_{n}$ , a high fractional monomer conversion, p, is required, according to Carothers' equation^[6]^[7] ${\overline {X}}_{n}={\frac {1}{1-p}}$ For example, a monomer conversion of p = 99% would be required to achieve ${\overline {X}}_{n}=100$ .

For chain-growth free radical polymerization, however, Carothers' equation does not apply. Instead long chains are formed from the beginning of the reaction. Long reaction times increase the polymer yield, but have little effect on the average molecular weight.^[8] The degree of polymerization is related to the kinetic chain length, which is the average number of monomer molecules polymerized per chain initiated.^[9] However it often differs from the kinetic chain length for several reasons:

chain termination may occur wholly or partly by recombination of two chain radicals, which doubles the degree of polymerization^[10]
chain transfer to monomer starts a new macromolecule for the same kinetic chain (of reaction steps), corresponding to a decrease of the degree of polymerization
chain transfer to solvent or to another solute (amodifierorregulator also decreases the degree of polymerization ^[11]^[12]

Correlation with physical properties

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Relationship between degree of polymerization and melting temperature for polyethylene. Data from Flory and Vrij (1963).

Polymers with identical composition but different molecular weights may exhibit different physical properties. In general, increasing degree of polymerization correlates with higher melting temperature ^[13] and higher mechanical strength.

Number-average and weight-average

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Synthetic polymers invariably consist of a mixture of macromolecular species with different degrees of polymerization and therefore of different molecular weights. There are different types of average polymer molecular weight, which can be measured in different experiments. The two most important are the number average (X_n) and the weight average (X_w).^[4]

The number-average degree of polymerization is a weighted mean of the degrees of polymerization of polymer species, weighted by the mole fractions (or the number of molecules) of the species. It is typically determined by measurements of the osmotic pressure of the polymer.

The weight-average degree of polymerization is a weighted mean of the degrees of polymerization, weighted by the weight fractions (or the overall weight of the molecules) of the species. It is typically determined by measurements of Rayleigh light scattering by the polymer.

References

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^ IUPAC DefinitioninCompendium of Chemical Terminology (IUPAC Gold Book)

^ Cowie J.M.G. Polymers: Chemistry and Physics of Modern Materials (2nd ed. Blackie 1991), p.10 ISBN 0-216-92980-6

^ Allcock H.R., Lampe F.W. and Mark J.P. Contemporary Polymer Chemistry (3rd ed. Pearson Prentice-Hall 2003), p.316 ISBN 0-13-065056-0

^ ^a ^b Fried J.R. "Polymer Science and Technology" (Pearson Prentice-Hall, 2nd edn 2003), p.27 ISBN 0-13-018168-4

^ Rudin, Alfred "Elements of Polymer Science and Engineering" (Academic Press 1982), p.7 ISBN 0-12-601680-1

^ Rudin, p.171

^ Cowie p.29

^ Cowie, p.81

^ Allcock, Lampe and Mark, p.345

^ Allcock, Lampe and Mark, p.346

^ Allcock, Lampe and Mark, p.352-7

^ Cowie p.63-64

^ Flory, P.J. and Vrij, A. J. Am. Chem. Soc.; 1963; 85(22) pp3548-3553 Melting Points of Linear-Chain Homologs. The Normal Paraffin Hydrocarbons.|doi=10.1021/ja00905a004|url=http://pubs.acs.org/doi/abs/10.1021/ja00905a004

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Degree of polymerization

Contents

Step-growth and chain-growth polymerization

Correlation with physical properties

Number-average and weight-average

See also

References

Languages