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Huggins equation

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The Huggins Equation is an empirical equation used to relate the reduced viscosity of a dilute polymer solution to the concentration of the polymer in solution. It is named after Maurice L. Huggins. The Huggins equation states:

Where is the specific viscosity of a solution at a given concentration of a polymer in solution, is the intrinsic viscosity of the solution, is the Huggins coefficient, and is the concentration of the polymer in solution.[1] In isolation, is the specific viscosity of a solution at a given concentration.

The Huggins equation is valid when is much smaller than 1, indicating that it is a dilute solution.[2] The Huggins coefficient used in this equation is an indicator of the strength of a solvent. The coefficient typically ranges from about (for strong solvents) to (for poor solvents).[3]

The Huggins equation is a useful tool because it can be used to determine the intrinsic viscosity, , from experimental data by plotting versus the concentration of the solution, .[4][5]

See also

References

  1. ^ Alger, Mark (1996). Polymer science dictionary (2nd ed.). London: Chapman & Hall. p. 249. ISBN 0412608707.
  2. ^ Young, Robert J.; Lovell, Peter A. (1991), "Introduction", Introduction to Polymers, Springer US, pp. 1–14, doi:10.1007/978-1-4899-3176-4_1, ISBN 9780412306402
  3. ^ Seidel, Arza (2008). Characterization analysis of polymers. Hoboken, N.J.: Wiley-Interscience. p. 687. ISBN 978-0-470-23300-9.
  4. ^ Cowie, John M. G. (2008). Polymers : chemistry and physics of modern materials. Taylor & Francis. ISBN 978-0849398131. OCLC 610115193.
  5. ^ Pamies, Ramón; Ginés Hernández Cifre, José; López Martínez, María del Carmen; García de la Torre, José. "Determination of intrinsic viscosities of macromolecules and nanoparticles. Comparison of single-point and dilution procedures" (PDF). Colloid Polym Sci. Retrieved 6 March 2017.