# MOPAC COSMO calculation¶

Here it is described briefly how to make MOPAC COSMO result files.

The simplest way is to use ADFinput. Draw the molecule using ADFinput, and save the .adf file. Select Right Panel → MOPAC → Solvation method → COSMO-CRS. Select 362 for NSPA. Press Run to run the MOPAC calculation. A .coskf file will be saved that can be used as input in COSMO-RS calculations.

In AMS2019 ADFinput uses the MOPAC engine, which is part of the AMS driver. Note that this is different than in AMS2018 and before. In the Atoms block key in the AMS driver part of the input one puts the coordinates of the molecule. The main input keys for the AMS driver and the MOPAC engine are:

$ADFBIN/ams << eor Task GeometryOptimization System Atoms .... End End Engine MOPAC Solvation Enabled Yes NSPA 362 Solvent Name CRS End End EndEngine eor  The use of the solvent CRS makes the MOPAC engine to create a .cos file, which is converted to a .coskf file by$ADFBIN/cosmo2kf

cosmo2kf file.cos file.coskf


Note that this is automatically done if one uses ADFinput.

Compared to the default ADF COSMO-RS values a few COSMO-RS parameters were reoptimized for MOPAC PM6 COSMO result files to improve the calculation of a number of partition coefficients, when compared to experimental values. Note that MOPAC is a semi-empirical quantum chemistry program, whereas ADF is based on density functional theory (DFT). Thus the MOPAC COSMO result files will not be of the same quality as the ADF COSMO result files.