Lignin Intermediates on Palladium : Insights into Keto-Enol Tautomerization from Theoretical Modelling

It has been suggested in the literature that keto-to-enol tautomerization plays a vital role for lignin fragmentation under mild conditions. On the other hand, previous modelling has shown that the adsorbed keto form is more stable than enol on the Pd(111) catalyst. The current density functional theory study of lignin model molecules shows that, in the gas-phase, keto is more stable than enol, but on the Pd surface, we find enol conformers that are at least as stable as keto. This supports the experimental result that the favourable reaction pathway for lignin depolymerization involves keto-enol tautomerization. An energy decomposition analysis gives insights concerning the origin of the fine energy balance between the keto and enol forms, where the molecule–surface interaction (−7†eV) and the molecular strain energy (+3†eV) are the main contributors to the adsorption energy. ; Title in the list of papers of Ageo Meier de Andrade's thesis: Lignin intermediates on palladium: Insights from theoretical modelling