Kern and Frenkel patchy model
The Kern and Frenkel
\[\Phi_{ij}({\mathbf r}_{ij}; \tilde[[:Template:\mathbf \Omega]]_i, \tilde[[:Template:\mathbf \Omega]]_j) =\Phi_{ij}^{ \mathrm{HSSW}}({\mathbf r}_{ij}) \cdot f(\tilde[[:Template:\mathbf \Omega]]_i, \tilde[[:Template:\mathbf \Omega]]_j) \]
where the radial component is given by the square well model (Eq. 2)
\[ \Phi_{ij}^{ \mathrm{HSSW}} \left({\mathbf r}_{ij} \right) = \left\{ \begin{array}{ccc} \infty & ; & r < \sigma \\ - \epsilon & ; &\sigma \le r < \lambda \sigma \\ 0 & ; & r \ge \lambda \sigma \end{array} \right. \]
and the orientational component is given by (Eq. 3)
\[ f_{ij} \left(\hat{ {\mathbf r}}_{ij}; \tilde[[:Template:\mathbf \Omega]]_i, \tilde[[:Template:\mathbf \Omega]]_j \right) = \left\{ \begin{array}{clc} 1 & \mathrm{if} & \left\{ \begin{array}{ccc} & (\hat{e}_\alpha\cdot\hat{r}_{ij} \leq \cos \delta) & \mathrm{for~some~patch~\alpha~on~}i \\ \mathrm{and} & (\hat{e}_\beta\cdot\hat{r}_{ji} \leq \cos \delta) & \mathrm{for~some~patch~\beta~on~}j \end{array} \right. \\ 0 & \mathrm{otherwise} & \end{array} \right. \]
where \(\delta\) is the solid angle of a patch (\(\alpha, \beta, ...\)) whose axis is \(\hat{e}\) (see Fig. 1 of Ref. 1), forming a conical segment.
[edit] Two patches
The "two-patch" Kern and Frenkel model has been extensively studied by Giacometti et al.
[edit] Four patches
- Main article: Anisotropic particles with tetrahedral symmetry
[edit] References
- ↑ Norbert Kern and Daan Frenkel "Fluid–fluid coexistence in colloidal systems with short-ranged strongly directional attraction", Journal of Chemical Physics 118, 9882 (2003)
- ↑ Achille Giacometti, Fred Lado, Julio Largo, Giorgio Pastore, and Francesco Sciortino "Effects of patch size and number within a simple model of patchy colloids", Journal of Chemical Physics 132, 174110 (2010)
- Related reading
