Zeolites have been widely used as catalysts, ion exchangers, and adsorbents since their
industrial breakthrough in the 1950s and continue to be state-of the-art adsorbents in many …

One of the greatest challenges of modern separation technology is separating isotope
mixtures in high purity. The separation of hydrogen isotopes can create immense economic …

The separation of hydrogen isotopes for applications such as nuclear fusion is a major
challenge. Current technologies are energy intensive and inefficient. Nanoporous materials …

Interfacial thermal transport between offset parallel (10, 10) single-wall carbon nanotubes is
investigated by molecular dynamics simulation and analytical thermal modeling as a …

Hydrogen isotope mixtures can be separated either by confinement in small pores
[ie,“kinetic quantum sieving”(KQS)] or by strong adsorption sites [ie,“chemical affinity …

Molecular modelling has become a useful and widely applied tool to investigate separation
and diffusion behavior of gas molecules through nano-porous low dimensional carbon …

Quantum effects on the molecular adsorption and migration in confined porous materials
can not be ignored if the difference between the pore size and molecular hard core is no …

We propose a new route to hydrogen isotope separation which exploits the quantum sieving
effect in the context of transmission through asymmetrically decorated, doped porous …

Diffuse reflectance infrared (IR) spectroscopy performed over a wide temperature range (35–
298 K) is used to study the dynamics of H2 adsorbed within the isostructural metal–organic …

The crystal structure of [Cu (4, 4′-bipyridine) 2 (CF3SO3) 2] n metal-organic framework
(CuBOTf) of one-dimensional pore networks after pre-evacuation at 383 K was determined …