MOPAC (Molecular Orbital PACkage) is a semi-empirical quantum chemistry program by James Stewart.
MOPAC is a general-purpose semi-empirical molecular orbital package for the study of molecular structures and reactions. For details on MOPAC, see its manual and website of Stewart Computational Chemistry. OCHEM uses version 7.1 of MOPAC, which is still open source (later version are commercial).
OCHEM descriptors are calculated using the mopac@home project.
MOPAC-derived descriptors include both per-molecule descriptors (molecular descriptors) and per-atom descriptors (atomic descriptors).
A block of basic descriptors is calculated. These include TotalEnergy Sum of the electronic and nuclear (core-core) energies.
ElectronicEnergy Electronic energy.
CoreRepulsion Nuclear energy (core-core repulsion.
FinalHeat The final heat of formation.
IonisationPotential The smallest energy required to remove an electron.
HomoEnergy The energy of the highest occupied molecular orbital.
LumoEnergy The energy of the lowest unoccupied molecular orbital.
DipolPointCharge Molecular dipole.
DipolHybrid Molecular dipole.
DipolSum Molecular dipole.
ElectronNuclear
ElectronElectron
ResonanceEnergy
ExchangeEnergy
ElectronElectronRepulsion
ElectronNuclearAttraction
NuclearNuclearRepulsion
TotalElectrostaticInteraction
PrincipalMomentsInertia Principal components as PrincipalMomentsInertiaA, PrincipalMomentsInertiaB, and PrincipalMomentsInertiaC .
Atomic descriptors are grouped into net atomic charges and frontier electron theory descriptors. The latter include
Electrophilic frontier electron density
Nucleophilic frontier electron density
Electrophilic superdelocalizability
Nucleophilic superdelocalizability
Radial superdelocalizability
Atom self-polarizability
Frontier electron theory descriptors, in particular electrophilic superdelocalisability, have been successfully used to model acid dissociation constants (Tehan et al., 2002).
Both molecular and atomic descriptors offer the option use stereochemistry --
For atomic descriptors, the schema determines for which atoms the descriptors are computed. The atom (called the center atom) is usually determined by an obligatory property, e.g., as in acid dissociation constants (pKa).