Origin of Nonuniform Latex Particles

Multiphase polymer particles prepared by emulsion polymerizations find a number of important commercial applications such as elastomers, coatings, adhesives, and impact resistant thermoplastics. Latex products, which exhibit nonuniform particle morphology, are produced when two or more monomers react with one another such that separate polymer phases form during emulsion polymerization. The incompatibility of different polymers or the sequence and location of the formation of polymers can result in separate polymer phases. 

Principles and Applications of Emulsion Polymerization, by Chorng-Shyan Chern Copyright 2008 by John Wiley Sons, Inc. 

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This chapter serves as an introduction to the origin of nonuniform latex particles. First, a brief discussion of the seeded emulsion polymerization technique that has been widely used to prepare composite polymer particles with a variety of morphological structures is given. This is followed by the illustration of the effects of important factors such as initiators, monomer addition methods, polymer molecular weight, volume ratio of the second-stage monomer to the seed polymer, and polymerization temperature that affect the morphological structures of latex particles. The development of morphological structures of nonuniform latex particles will then be covered at the end of this chapter. 

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