SM12: Solvation Model 12¶
Continuum solvation can be done with the Minnesota’s Solvation Model 12 (SM12) [1]. Details on the implementation of SM12 in ADF can be found in Ref. [2]. The energetics of solvation is calculated using:
where the symbol \(\otimes\) denotes an arbitrary choice of standard states, \(\Delta E_E\) is the change in the solute’s internal electronic energy in transferring from the gas phase to the liquid phase at the same geometry, \(G_P\) is the polarization free energy of the solute–solvent system when the solute is inserted, \(G_{CDS}\) is the component of the free energy that is nominally associated with cavitation, dispersion, and solvent structure, \(\Delta G_N\) is the change in \(\Delta G_S^0\) due to a change in nuclear coordinates, and \(\Delta G_{conc}^\otimes\) accounts for the difference in concentrations, if any, in the gas-phase standard state and the solution-phase one. In case of 1 M concentration in both solution and gas, then \(\Delta G_S^\otimes\) = 0 kcal/mol, which yields \(\Delta G_S^*\). If the same geometry is used in solution and gas phase calculation, then \(\Delta G_N\) is zero.
SM12 makes use of the Generalized Born approximation to calculate the bulk electrostatic contribution. This is comprised of several terms that are together known as the ENP (Electronic, Nuclear, and Polarization) term \(G_P\). The SM12 model in ADF uses CM5 charges [3]. CM5 is a class 4 charge model, making use of both empirical and density related terms. It is comprised of Hirshfeld charges [4], a simple bond order calculation, atomic distances, and atom specific parameters [3]. The covalent radii utilized are based on the atomic covalent radius from the Handbook of Chemistry and Physics [5]. The Coulomb integral is described with the use of an approximation from Still et al. [6]. Several parameters go into describing this, which include: inter atomic distance, an empirical Born constant, and the Born area, which is calculated with the Analytical Surface Area (ASA) algorithm [7]. The Born area is calculated using Legendre-Gauss quadrature from the atomic radii to a sphere that encapsulates the entire molecule.
The ASA algorithm is also used to calculate the solvent accessible surface area (SASA), which is computed within the CDS (Cavitation, Dispersion, Solvation) term of SM12. The CDS term depends on three terms:
SASA (ASA Algorithm)
Atomic surface tension
Macroscopic surface tension
Atomic surface tension is based on atom-atom distances and the solvent. Macroscopic surface tension is solvent specific. The SM12 implementation in ADF reports energies in an atom specific way. You can attribute exact CDS and polarization energies to each atom in your solute. The parameters for SM12 are derived to explicitly incorporate organic elements (N, C, O, F, Si, P, S, Cl, Br, I), with less emphasis on non-organics. Also, while most solvents have a generic atomic surface tension reliance for atoms, water has its own explicit set of parameters to better describe it.
SOLVATION SM12
{SOLV NAME=solvent}
{CUST {NAME=solvent}}
{REF 1.33}
{ACID 0.82}
{BASE 0.35}
{TENS 103.62}
{EPS 78.36}
{ARO 0.0}
{HALO 0.0}
{RADSOLV 0.4}
{CHGAL 2.474}
{BORNC 3.70}
{PRINTSM12}
End
Presence of the SOLVATION SM12 key block key triggers the solvent calculation and does not require additional data. Curly brackets are not part of the key. If no other keywords are present the default is water. With subkeys you can customize various aspects of the model, for instance to specify the type of solute. None of the subkeys is obligatory. Follows a description of the subkeys
SOLV NAME = solvent
Defines which solvent to be used. Each solvent has parameters set for each of the variables defined below. All of which can be found in the SM12 Ref. [1]. Any variable can be changed with the inclusion of its key.
solvent
can be one of the following:ACETICACID
ACETONITRILE
ACETOPHENONE
ANILINE
ANISOLE
BENZENE
BENZONITRILE
BENZYLALCOHOL
BROMOBENZENE
BROMOETHANE
BROMOFORM
BROMOOCTANE
N-BUTANOL
SEC-BUTANOL
BUTANONE
BUTYLACETATE
N-BUTYLBENZENE
SEC-BUTYLBENZENE
T-BUTYLBENZENE
CARBONDISULFIDE
CARBONTETRACHLORIDE
CHLOROBENZENE
CHLOROFORM
CHLOROHEXANE
M-CRESOL
CYCLOHEXANE
CYCLOHEXANONE
DECALIN
DECANE
DECANOL
1-2-DIBROMOETHANE
DIBUTYLETHER
O-DICHLOROBENZENE
1-2-DICHLOROETHANE
DIETHYLETHER
DIISOPROPYLETHER
N-N-DIMETHYLACETAMIDE
N-N-DIMETHYLFORMAMIDE
2-6-DIMETHYLPYRIDINE
DIMETHYLSULFOXIDE
DODECANE
ETHANOL
ETHOXYBENZENE
ETHYLACETATE
ETHYLBENZENE
FLUOROBENZENE
1-FLUORO-N-OCTANE
HEPTANE
HEPTANOL
HEXADECANE
HEXADECYLIODIDE
HEXANE
HEXANOL
IODOBENZENE
ISOBUTANOL
ISOOCTANE
ISOPROPANOL
ISOPROPYLBENZENE
P-ISOPROPYLTOLUENE
MESITYLENE
METHANOL
METHOXYETHANOL
METHYLENECHLORIDE
N-METHYLFORMAMIDE
2-METHYLPYRIDINE
4-METHYL-2-PENTANONE
NITROBENZENE
NITROETHANE
NITROMETHANE
O-NITROTOLUENE
NONANE
NONANOL
OCTANE
OCTANOL
PENTADECANE
PENTANE
PENTANOL
PERFLUOROBENZENE
PHENYLETHER
PROPANOL
PYRIDINE
TETRACHLOROETHENE
TETRAHYDROFURAN
TETRAHYDROTHIOPHENEDIOXIDE
TETRALIN
TOLUENE
TRIBUTYLPHOSPHATE
TRIETHYLAMINE
1-2-4-TRIMETHYLBENZENE
UNDECANE
WATER
XYLENE
1-2-DIBROMOETHANE_WATER
1-2-DICHLOROETHANE_WATER
BENZENE_WATER
CARBONTETRACHLORIDE_WATER
CHLOROBENZENE_WATER
CHLOROFORM_WATER
CYCLOHEXANE_WATER
DIBUTYLETHER_WATER
DIETHYLETHER_WATER
ETHYLACETATE_WATER
HEPTANE_WATER
HEXANE_WATER
NITROBENZENE_WATER
OCTANOL_WATER
CUST {NAME=solvent}
A solvent with user specified parameters can be used. A user specified name of the solvent
solvent
can be provided, but should not match one of the solvent names listed above. Any un-specified parameters will be set to zero, with the exception of the dielectric constant, which will be set to the dielectric constant of water.REF
Index of refraction at 293K (n).
ACID
Abrahams hydrogen bond acidity (\(\alpha\)).
BASE
Abrahams hydrogen bond basicity (\(\beta\)).
TENS
Macroscopic surface tension of the solvent at the air interface cal mol-1 Å-2)(\(\gamma\)).
EPS
Dielectric constant. If not specified it will be set to the default of water. (\(\epsilon\)).
ARO
Square root of the fraction of non-hydrogen atoms in the solvent molecule that are aromatic carbon atoms (carbon aromaticity) (\(\phi\)).
HALO
Square of the fraction of non-hydrogen atoms in the solvent molecule that are halogens (Electronegative halogenicity)(\(\psi\)).
RADSOLV
Solvent radius, this is added to the van der Waals radius used for the cavity calculation.
CHGAL
CM5 alpha parameter for Pauling bond order.
BORNC
Empirical Born constant, see Ref. [1]
PRINTSM12
Print more information on the SM12 calculation: CDS atom terms, ENP charges.
References