It is possible to design high permeability and selective metal-organic frameworks (MOFs)
with designable functionality. The large number of possible MOF structural permutations …

Taking appropriate measures for waste-water treatment is important in order to respect
everyone's fundamental right to clean and safe water on Earth. Current review encapsulates …

Membrane separation technology has become a very effective separation technology for
CO2 reduction, saving about 90% of energy consumption. However, the CO2 separation …

The energy required for propylene/propane (C 3 H 6/C 3 H 8) separation is enormous:∼
0.3% of global energy consumption. Membrane separation is gaining much attention as an …

Mixed matrix membranes (MMMs), combining the advantages of polymer membranes and
porous materials, processing the potential to realize large-scale gas separation applications …

The socio-economic advancements have led to the emergence of anthropogenic carbon
dioxide (CO 2) emissions, which have had a profound influence on ecosystems and climate …

Mixed matrix membranes (MMMs), as an effective means of water purification, have attracted
more and more attention in recent years. Material selection and application research play …

A key challenge is to produce the uniform morphology and regular pore design of inorganic
hollow fiber membranes (HFMs) due to involvement of multiple parameters including …

Mixed matrix membranes (MMMs) combine the advantages of polymers and inorganic
materials and demonstrate higher gas permeability than polymeric membranes, which …

This review summarizes the performance of recently developed microporous polymers for
practical industrial O 2/N 2 separations. The macromolecular design of innovative polymers …