Difference between revisions of "Example:Virial coefficient"

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(Created page with "Interparticle interactions can be probed by measuring SAXS as a function of concentration (''c''). At low concentration, the particles do not interact. The scattering in t...")
 
 
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Interparticle interactions can be probed by measuring [[SAXS]] as a function of concentration (''c''). At low concentration, the particles do not interact. The scattering in this case is dominated by the [[form factor]] (<math>\scriptstyle P(q)</math>), which simply encodes the particle size/shape (because the structure factor is eliminated: <math>\scriptstyle S(c=0,q)=1</math>). On the other hand, at high concentrations, particles interact strongly, leading to a non-trivial structure factor.
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Interparticle interactions can be probed by measuring [[SAXS]] as a function of concentration (''c''). At low concentration, the particles do not interact. The [[scattering]] in this case is dominated by the [[form factor]] (<math>\scriptstyle P(q)</math>), which simply encodes the particle size/shape (because the [[structure factor]] is eliminated: <math>\scriptstyle S(c=0,q)=1</math>). On the other hand, at high concentrations, particles interact strongly, leading to a non-trivial structure factor.
  
 
:<math>I(c,q) = I(c=0,q) \times S(c,q)</math>
 
:<math>I(c,q) = I(c=0,q) \times S(c,q)</math>

Latest revision as of 08:38, 25 July 2015

Interparticle interactions can be probed by measuring SAXS as a function of concentration (c). At low concentration, the particles do not interact. The scattering in this case is dominated by the form factor (), which simply encodes the particle size/shape (because the structure factor is eliminated: ). On the other hand, at high concentrations, particles interact strongly, leading to a non-trivial structure factor.

From the solution structure factor (), one can calculate the second virial coefficient (A2):

See Also

  • Journal of Crystal Growth 2001, 232, 1-9.
  • Methods in Enzymology 1997, Vol. 276, 100-110.