期刊论文详细信息
Frontiers in Physics
On the relation between the Langmuir and thermodynamic flux equations
Titus Sebastiaan van Erp1  Thuat Thanh Trinh1  Signe eKjelstrup1  Kirill eGlavatskiy2 
[1] Norwegian University of Science and Technology (NTNU);Royal Melbourne Institute of Technology;
关键词: Diffusion;    Kinetics;    Langmuir model;    hydrogen adsorption;    thermodynamic rate theory;   
DOI  :  10.3389/fphy.2013.00036
来源: DOAJ
【 摘 要 】

Despite its approximative nature, the Langmuir theory has shown to be a very successful approach to describe experimental adsorption isotherms. Langmuir kinetics is based on systems of non- interacting particles that can transfer from the gas phase to the adsorbed phase with a transition flux that depends both on the gas pressure and surface coverage. Recent molecular simulation results suggest, however, that some systems can have isotherms that are apparently Langmuirian while the kinetics are not. This remarkably result seems to question the interpretation of innumerous adsorption experiments. The observed anomalous kinetics were described by thermodynamic rate equations giving exactly the same isotherms. Unidirectional rates, as obtained from mesoscopic non- equilibrium theory, correct for the non-ideality of matter using activities instead of concentrations and seem to suggest that fluxes from phase A to another phase B only depends on the properties of phase A alone. In this article we show, however, that the theories and simulations are actually consistent when the following two points are taken into account. The first point is methodological and related to how one should count crossing events considering the presence of possible correlations. The second point is theoretical and related to the microscopic link between the Langmuir and thermodynamic rate theory. Specifically, we show how to define diffusion and activity coefficients at the border of the gas/solid interface. If both points are taken into account, there is neither a contradiction between both theories, nor with the molecular simulation results.

【 授权许可】

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