Based on constant Fermi-level molecular dynamics and a proper alignment scheme, we perform simulations of the Pt(111)/water interface under variable bias potential referenced to the standard hydrogen electrode (SHE). Our scheme yields a potential of zero charge mu(pzc), of similar to 0.22 eV relative to the SHE and a double layer capacitance C-dl of similar or equal to 19 mu F cm(-2), in excellent agreement with experimental measurements. In addition, we study the structural reorganization of the electrical double layer for bias potentials ranging from -0.92 eV to +0.44 eV and find that O-down configurations, which are dominant at potentials above the pzc, reorient to favor H-down configurations as the measured potential becomes negative. Our modeling scheme allows one to not only access atomic-scale processes at metal/water interfaces, but also to quantitatively estimate macroscopic electrochemical quantities.

• 出版日期2018-4-19