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 …

Deuterium or tritium, which are rare isotopologues of hydrogen, are in high demand across
various industries; thus it is crucial to develop a separation technology for hydrogen …

Tritium is a sustainable next‐generation prime fuel for generating nuclear energy through
fusion reactions to fulfill the increasing global energy demand. Owing to the scarcity–high …

Quasielastic neutron scattering (QENS) is an experimental technique that can measure
parameters of mobility, such as diffusion jump rate and jump length, as well as localized …

Effective separation of hydrogen isotopes still remains one of the extremely challenging
tasks in industry. Compared to the present methods that are energy-and cost-intensive …

Kinetic‐quantum‐sieving‐assisted H2: D2 separation in flexible porous materials is more
effective than the currently used energy‐intensive cryogenic distillation and girdle‐sulfide …

Hydrogen isotope separation under moderate conditions with high selectivity remains a
huge challenge due to the identical physicochemical properties of the isotopes. Here, we …

Thermodynamics, kinetics and selectivity of H 2 and D 2 on zeolite 5A have been
investigated by isotherm adsorption/desorption and thermal desorption spectroscopy (TDS) …

This study reports on the low-pressure hydrogen (H 2) and deuterium (D 2) physisorption
processes in nanoporous activated carbon cloth at supercritical temperatures. In-situ small …

An ultramicroporous MOF material,{[Fe (OH)(H2bta)](H2O)} n, was diligently selected for the
experimental investigations of ultralow-temperature separation of H2/D2 through quantum …