Figure7

A comparative study between Monte Carlo entropic sampling method and local mean field investigations of thermal properties of spin-crossover nanoparticles based on Ising-like model

Figure 7. Comparison of the thermal evolution of the HS fraction in a SCO system for a 6 $$ \times $$ 6 square lattice: MCES (black squares), LMFA (blue up triangles). The computational parameters are: $$ J_{bb}^{MCES}/k_B = 60\ \mathrm{K} $$, $$ J_{ss}^{MCES}/k_B = 60\ \mathrm{K} $$, $$ J_{bs}^{MCES}/k_B = 20\ \mathrm{K} $$, $$ J_{bb}^{LMFA}/k_B = 44\ \mathrm{K} $$, $$ J_{ss}^{LMFA}/k_B = 42.22\ \mathrm{K} $$, $$ \Delta/k_B = 1, 300\ \mathrm{K} $$, $$ G/k_B = 172\ \mathrm{K} $$, $$ L/k_B = 290\ \mathrm{K} $$, and ln($$ g $$) = 6.01.

Chemical Synthesis
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