This paper validates the hypothesis that the supposedly nonspecific adsorbates nitrogen and argon wet heavy metals differently and shows how this unexpected effect can be actively utilized to deliver information on pore interconnectivity. To explore surface chemistry influences on differential adsorbate wetting, new findings for a mixed silica–alumina material were compared with data for pure silica and alumina materials. The new structural characterization described can determine the distribution of the particular subset of meso- and micropores that connect directly to macropores that entrap mercury following porosimetry, as mapped by computerized X-ray tomography. Hence, it elucidates the spatial organization of the network and measures the improved accessibility to smaller pores provided by larger pores. It was shown that the silica–alumina pellets have a hierarchical pore-size arrangement, similar to the optimal blood vessel network architecture in animals. The network architecture derived from the ne...