Electron transfer at molecule-metal interfaces under Floquet engineering: Rate constant and Floquet Marcus theory (2306.10219v1)

Abstract: Electron transfer (ET) at molecule-metal or molecule-semiconductor interfaces is a fundamental reaction that underlies all electro-chemical and molecular electronic processes as well as substrate-mediated surface photochemistry. In this study, we show that ET rates near a metal surface can be significantly manipulated by periodic modulations of an impurity level of the molecule near a metal surface. We employ the analytical Marcus theory and two numerical Floquet surface hopping algorithms that are developed previously, to calculate the ET rates near metal surface as a function of driving amplitudes and driving frequencies. We find that ET rates become faster with increasing the driving amplitude but no turnover effect, while have a turnover effect with increasing driving frequencies.