Polymers of intrinsic microporosity (PIMs) are unique polymers known for their intrinsic micro-
scale porosity contributed by bulky and rigid contortion sites in the polymer backbone …

Membrane-mediated separation has gained significant attention as a promising strategy for
CO2 separation. The continuous quest for membrane materials with improved CO2 …

Hydrogen separation membranes are a critical component in the emerging hydrogen
economy, offering an energy-efficient solution for the purification and production of hydrogen …

Tröger's base (TB) polymer of intrinsic microporosity has aroused increasing attention in
various membrane-mediated gas separations. Herein we report macromolecular …

Polymer materials have been extensively utilized in diverse separation fields, especially in
membrane-based nanotechnologies for gas and liquid separations. The membrane …

Carbon dioxide (CO 2) emissions have continued to rise with the sustained reliance on fossil
fuels. One leading solution to capturing CO 2 emissions is ultrathin film composite (UTFC) …

Membrane technology has emerged as a promising approach for various CO 2 capture
applications, including but not limited to hydrogen purification, natural gas processing …

Membrane technologies and materials development appear crucial for the hydrogen/natural
gas separation in the impending transition to the hydrogen economy. Transporting hydrogen …

The fillers in asymmetric mixed matrix membranes (AMMMs) by phase inversion tend to
distribute across the membrane, but less in the skin layer, resulting in limited enhancement …

Increasing amounts of carbon dioxide (CO2) emissions in the atmosphere are a leading
cause of climate change. Ultrathin film composite (UTFC) membranes have the potential to …