Difference between revisions of "Paper:DNA-nanoparticle superlattices formed from anisotropic building blocks"

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(Created page with "This is a summary/discussion of the results from: * Matthew R. Jones, Robert J. Macfarlane, Byeongdu Lee, Jian Zhang, Kaylie L. Young, Andrew J. Senesi, and Chad A. Mirkin [ht...")
 
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Where ''c'' is a constant, and ''L'' is the [[X-ray peak shape|peak shape]].
+
Where ''c'' is a constant, and ''L'' is the [[peak shape|peak shape]]; such as:
 +
:<math>
 +
L = \frac{\sigma_L/(2\pi)}{(q-q_{hkl})^2 + (\sigma_L/2)^2}
 +
</math>
  
 
The (isotropic) '''form factor intensity''' is an average over all possible particle orientations:
 
The (isotropic) '''form factor intensity''' is an average over all possible particle orientations:

Revision as of 14:04, 15 October 2014

This is a summary/discussion of the results from:

This paper describes the formation of nanoparticle [[superlattices] from anisotropic nano-objects. In the Supplementary Information information, the authors describe how to model x-ray scattering data from lattices of anisotropic nanoparticles.

Summary of Mathematics

Randomly oriented crystals give scattering intensity:

Where the structure factor is defined by an orientational average (randomly oriented crystal(s)):

and can be computed by:


Where c is a constant, and L is the peak shape; such as:

The (isotropic) form factor intensity is an average over all possible particle orientations:

The form factor amplitude is computed via: