Recent advances in polymers of intrinsic microporosity (PIMs) membranes: Delving into the intrinsic microstructure for carbon capture and arduous industrial …
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 …
scale porosity contributed by bulky and rigid contortion sites in the polymer backbone …
Troger's base polymeric membranes for CO 2 separation: a review
Membrane-mediated separation has gained significant attention as a promising strategy for
CO2 separation. The continuous quest for membrane materials with improved CO2 …
CO2 separation. The continuous quest for membrane materials with improved CO2 …
Monolayer fullerene membranes for hydrogen separation
Hydrogen separation membranes are a critical component in the emerging hydrogen
economy, offering an energy-efficient solution for the purification and production of hydrogen …
economy, offering an energy-efficient solution for the purification and production of hydrogen …
Ionization of Tröger's base polymer of intrinsic microporosity for high-performance membrane-mediated helium recovery
Tröger's base (TB) polymer of intrinsic microporosity has aroused increasing attention in
various membrane-mediated gas separations. Herein we report macromolecular …
various membrane-mediated gas separations. Herein we report macromolecular …
Polymers of intrinsic microporosity for membrane-based precise separations
Polymer materials have been extensively utilized in diverse separation fields, especially in
membrane-based nanotechnologies for gas and liquid separations. The membrane …
membrane-based nanotechnologies for gas and liquid separations. The membrane …
[HTML][HTML] Breaking barriers: Unleashing CO2 selectivity with ultrathin poly (1, 3-dioxolane) composite membranes produced by continuous assembly of polymers
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) …
fuels. One leading solution to capturing CO 2 emissions is ultrathin film composite (UTFC) …
Recent development of membranes for carbon capture: From materials to asymmetric membranes
Membrane technology has emerged as a promising approach for various CO 2 capture
applications, including but not limited to hydrogen purification, natural gas processing …
applications, including but not limited to hydrogen purification, natural gas processing …
Hybrid Fluoro-Based Polymers/Graphite Foil for H2/Natural Gas Separation
Membrane technologies and materials development appear crucial for the hydrogen/natural
gas separation in the impending transition to the hydrogen economy. Transporting hydrogen …
gas separation in the impending transition to the hydrogen economy. Transporting hydrogen …
Gravitational modulation of filler distribution in asymmetric mixed matrix membrane: Achieving high loading in skin layer
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 …
distribute across the membrane, but less in the skin layer, resulting in limited enhancement …
Unveiling the Potential: Core‐Shell Nanoparticles Assembly of Metal‐Organic Framework@ poly (1, 3‐dioxolane) Methacrylate for Gutter‐Layer‐Free Ultrathin Film …
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 …
cause of climate change. Ultrathin film composite (UTFC) membranes have the potential to …