posted on 2021-11-24, 20:35authored byFlorencia
A. Son, Brandon C. Bukowski, Timur Islamoglu, Randall Q. Snurr, Omar K. Farha
Although
mass transfer of molecules in and out of porous materials
such as zeolites and metal–organic frameworks impacts many
applications, the fast and reproducible measurement of intracrystalline
diffusion and surface permeability in porous materials remains challenging.
Here, we demonstrate how a commercially available volumetric adsorption
instrument can be used to reliably obtain guest mass transfer rates
in nanoporous materials. The measurements are rapid and allow for
the determination of intracrystalline diffusion coefficients and surface
permeabilities in multiple adsorbents simultaneously, as well as the
parallel collection of their adsorptive properties. In addition to
describing the experimental procedures in detail, we provide a user-friendly
code to facilitate the data analysis to obtain the transport parameters
from adsorption uptake experiments and to determine the rate limiting
process. Using the metal–organic frameworks MOF-808, NU-1000,
and UiO-66, we illustrate the reproducibility of this technique for
different sample masses across a variety of pressures. Wider adoption
of this methodusing commonly available equipmentshould
contribute to a better understanding of mass transport in nanoporous
materials.