1. Ideal step-growth polymerization gives a polymer with dispersity of 2. 2. Ideal living polymerization results in a dispersity of 1. 3. The table below shows the dispersity of Indian people in the United Kingdom. 4. In this sense, the dispersity values are in the range from 0 to 1. 5. Several methods offer better control over dispersity . 6. This can necessitate harsh reaction conditions and long reaction times, resulting in a wide dispersity . 7. Another interpretation of dispersity is explained in the article Dynamic light scattering ( cumulant method subheading ). 8. For a homogeneous CSTR, the dispersity is proportional to the square root of the Damkohler number. 9. This depends on the polymer endgroups, dispersity , or� in the case of copolymers� varying copolymer compositions. 10. Since molecular weight and dispersity are less controlled in non-living polymerizations, this method is more desirable for materials design
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