Theoretical basis for the Dubinin-Radushkevitch (D-R) adsorption isotherm equation

Abstract

The Dubinin-Radushkevitch (D-R) equation, which was originally proposed as an empirical adaptation df the Polanyi adsorption potential theory, has been the fundamental equation to quantitatively describe the adsorption of gases and vapors by microporous sorbents. The equation, based on the postulate that the mechanism for adsorption in micropores is that of pore-filling rather than layer-by-layer surface coverage, generally applies well to adsorption systems involving only van der Waals forces and is especially useful to describe adsorption on activated carbon. The ability of the D-R equation to describe gas adsorption on porous materials has inspired many to undertake studies, both experimental and theoretical, to explain the source of the success of the D-R equation in terms of molecular properties at the gas-solid interface. In many cases, these studies have led to extensions or modifications of the original D-R equation. Many of these attempts and the resulting extensions are reviewed and discussed here. Recently, an isotherm equation was derived for adsorption of gases and vapors on microporous solids from statistical mechanical principles. It was shown that the D-R equation is an approximated form of this potential theory isotherm. This development is also reviewed and discussed. © 1997 Kluwer Academic Publishers.