Table 5.
Comparison of the relative solvation free energies for the tautomeric protonation of N-Me piperazine in different solvents from Monte Carlo simulations and IEF-PCM calculationsa
| ΔG(FEP)sol | ΔG(PCM)solb | |
|---|---|---|
| Water | ||
| Infinitely dilute, CHELPG | −3.22±0.11 | |
| Infinitely dilute, RESP | −3.79±0.11 | −4.52, −4.50 |
| Ewald + counterion (fix distance), CHELPG | −3.10±0.11 | |
| Ewald + counterion (fix distance), RESP | −2.90±0.11 | |
| CH3CN, CHELPG charges | ||
| Infinitely dilute, | −4.46±0.07 | −4.25, −4.30 |
| Ewald + counterion (fix distance) | −4.38±0.07 | |
| Ewald + counterion (freely moving) | −1.48±0.07 | |
| CH2Cl2, CHELPG charges | ||
| Infinitely dilute | −2.38±0.05 | −3.74, −3.72 |
| Ewald + counterion (fix distance) | −1.96±0.04 | |
| Ewald + counterion (freely moving) | −4.40±0.05 |
a
Energies in kcal/mol. Values are for the free energy difference of Gsol(H+N(secondary)) − Gsol(H+N(tertiary)). Unless indicated, atomic charges were derived upon the CHELPG fit to the in-solution IEF-PCM/B3LYP/6-31G* molecular electrostatic potential for Monte Carlo calculations. Reaction field corrections applied in simulations with infinitely dilute solutions.
b
Relative solvation free energy values on the basis B3LYP/6-311++G** and QCISD(T)/CBS calculations from Table S4b.