posted on 2023-11-07, 13:09authored bySimeon D. Beinlich, Georg Kastlunger, Karsten Reuter, Nicolas G. Hörmann
The knowledge of electrochemical activation energies
under applied
potential conditions is a prerequisite for understanding catalytic
activity at electrochemical interfaces. Here, we present a new set
of methods that can compute electrochemical barriers with accuracy
comparable to that of constant potential grand canonical approaches,
without the explicit need for a potentiostat. Instead, we Legendre
transform a set of constant charge, canonical reaction paths. Additional
straightforward approximations offer the possibility to compute electrochemical
barriers at a fraction of computational cost and complexity, and the
analytical inclusion of geometric response highlights the importance
of incorporating electronic as well as the geometric degrees of freedom
when evaluating electrochemical barriers.