Thermobifida fusca cutinase ( TfC ) is a carboxylesterase (CE) that degrades the environmental pollutant, polyethylene terephthalate (PET). TfC also acts upon PET’s degradation intermediates (DIs), such as oligoethylene terephthalate (OET), and bis-/mono-hydroxyethyl terephthalate (BHET/MHET), to convert these into terephthalic acid (TPA), the terminal product of PET degradation. We examined TfC’s surface, compared it to that of other CEs, and performed molecular docking and MD simulations with an OET, 2HE-(MHET) ₃, to understand interactions between TfC’s surface and the OET, at TfC’s active site as well as vicinal regions. We mutated 17 residues on TfC’s surface, mostly individually, but sometimes using pairs of mutations, to see how these modulate TfC’s activity. Most mutants/variants showed a decrease in activity against solid PET. Some killed activity completely. However, three mutations (L90F, F209I and F249R), made using a background mutation (G62A) already reported to improve activity by almost ~2.0-fold, yielded increases in activity that were between ~1.3- and ~2.0-fold higher than that of G62A TfC (which we found to display a ~1.7-fold increase in activity over TfC, in our own experiments). TfC variants, G62A/F249R, and G62A/F209I, exhibit the highest activities yet observed in any TfC mutants/variants, against PET, and BHET, respectively.