A new force field for 1-propanol, in the united and all atom models, has been obtained by combining two different empirical methodologies. The first was developed by scaling atom charges, and Lennard-Jones parameters to fit the dielectric constant, surface tension, and density ((2018) J. Chem. Theory Comput. 14:5949-5958). The second methodology consists of moving these parameters and together with the bond distance to obtain the liquid-vapor phase diagram of the CO2 molecule ((1995) J. Phys. Chem. 99:12021-12024). The last methodology is used to obtain the self-diffusion coefficient, which was not considered in the first one. With this new methodology, the experimental density, dielectric constant, surface tension, and self-diffusion coefficient at ambient temperature could be achieved. Furthermore, we show the temperature dependence of the aforementioned properties. The static structure factors are in accordance with the experimental spectrum. Solubility is increased to the experimental value for the united atom model after applying this methodology and for all atom scheme, the experimental solubility value is maintained.