On the thermodynamics of hydrogen adsorption over Pt(111) in 0.05M NaOH

The reasons for the sluggish kinetics of the hydrogen adsorption reaction in alkaline media remain a question still to be solved. This information is important to achieve a complete understanding of the mechanistic details that could lead to the production of key catalytic materials necessary for the development of a future hydrogen economy. For a better understanding of this reaction, it is important to acquire information about the thermodynamic parameters characteristic of the different steps in the reaction. Among these, the hydrogen adsorption is a key step in the process of hydrogen evolution. Although some debate still remains about the difference between adsorbed hydrogen in the underpotential deposition (UPD) region and at the overpotential deposition region, there is no doubt that understanding the former can help in the understanding of the latter. Making use of charge density measurements, we report on this paper a thermodynamic study of the hydrogen UPD process on Pt(111) in 0.05M NaOH over the range of temperatures from 283 <= T/K <= 313. The coulometric features corresponding to H-UPD allow for the calculation of the hydrogen coverage and a fit to a Generalized Frumkin isotherm. From these values, different thermodynamic functions for the UPD reaction have been calculated: Delta G(ads), Delta S-ads, Delta H-ads, and the Pt-H bond energy. From extrapolation, a value of Delta S-ads degrees = -7.5(+/- 4) J mol(-1) K-1 was found, which is very close to 0, much lower than previously reported measurements both in acid and in alkaline solutions. Such value has an effect on the enthalpy and bond energy calculations, the latter having a decreasing tendency with pH and coverage. This tendency is completely different from the acidic systems and implies that the change in the thermodynamic functions due to the formation of the double layer and the reorganization of interfacial water has a strong influence on the process in high pH solutions. Published under an exclusive license by AIP Publishing.

Automated summary

This study focuses on the thermodynamic characteristics of the hydrogen underpotential deposition process on Pt(111) in alkaline media, with a specific emphasis on hydrogen adsorption and its impact on hydrogen evolution.