TY - JOUR
T1 - Resolution of a challenge for solvation modeling
T2 - Calculation of dicarboxylic acid dissociation constants using mixed discrete-continuum solvation models
AU - Marenich, Aleksandr V.
AU - Ding, Wendu
AU - Cramer, Christopher J.
AU - Truhlar, Donald G.
PY - 2012/6/7
Y1 - 2012/6/7
N2 - First and second dissociation constants (pK a values) of oxalic acid, malonic acid, and adipic acid were computed by using a number of theoretical protocols based on density functional theory and using both continuum solvation models and mixed discrete-continuum solvation models. We show that fully implicit solvation models (in which the entire solvent is represented by a dielectric continuum) fail badly for dicarboxylic acids with mean unsigned errors (averaged over six pK a values) of 2.4-9.0 log units, depending on the particular implicit model used. The use of water-solute clusters and accounting for multiple conformations in solution significantly improve the performance of both generalized Born solvation models and models that solve the nonhomogeneous dielectric Poisson equation for bulk electrostatics. The four most successful models have mean unsigned errors of only 0.6-0.8 log units.
AB - First and second dissociation constants (pK a values) of oxalic acid, malonic acid, and adipic acid were computed by using a number of theoretical protocols based on density functional theory and using both continuum solvation models and mixed discrete-continuum solvation models. We show that fully implicit solvation models (in which the entire solvent is represented by a dielectric continuum) fail badly for dicarboxylic acids with mean unsigned errors (averaged over six pK a values) of 2.4-9.0 log units, depending on the particular implicit model used. The use of water-solute clusters and accounting for multiple conformations in solution significantly improve the performance of both generalized Born solvation models and models that solve the nonhomogeneous dielectric Poisson equation for bulk electrostatics. The four most successful models have mean unsigned errors of only 0.6-0.8 log units.
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U2 - 10.1021/jz300416r
DO - 10.1021/jz300416r
M3 - Article
C2 - 26285618
AN - SCOPUS:84861854117
SN - 1948-7185
VL - 3
SP - 1437
EP - 1442
JO - Journal of Physical Chemistry Letters
JF - Journal of Physical Chemistry Letters
IS - 11
ER -