Porous organic polymers with defined morphologies: Synthesis, assembly, and emerging applications
Porous organic polymers (POPs) have well-defined porosities, high surface areas, and
attractive surface chemical functionalities. Because of these properties, POPs and their …
attractive surface chemical functionalities. Because of these properties, POPs and their …
Recent progress in PIM-1 based membranes for sustainable CO2 separations: Polymer structure manipulation and mixed matrix membrane design
Greenhouse gas separation, storage, and utilization are extremely urgent due to the growing
climate problems and resource shortages. Polymer-based membrane separation as one of …
climate problems and resource shortages. Polymer-based membrane separation as one of …
Ultrathin ionic COF Membrane via Polyelectrolyte‐Mediated Assembly for Efficient CO2 Separation
Fabricating ultrathin covalent organic framework (COF) membranes toward high‐permeance
molecular separations is highly desired yet challenging. Herein, a polyelectrolyte‐mediated …
molecular separations is highly desired yet challenging. Herein, a polyelectrolyte‐mediated …
Graphene‐based advanced membrane applications in organic solvent nanofiltration
Owing to the increasing need to mitigate excessive organic solvent waste, the efficient
separation and recovery of organic solvents have received major research attention in …
separation and recovery of organic solvents have received major research attention in …
[HTML][HTML] Emerging nanomaterial incorporated membranes for gas separation and pervaporation towards energetic-efficient applications
Gas separation (GS) and pervaporation (PV) mainly based on solution-diffusion mechanism,
are two important processes for the challenging transport and separation of gaseous and …
are two important processes for the challenging transport and separation of gaseous and …
Gas separations using nanoporous atomically thin membranes: recent theoretical, simulation, and experimental advances
Porous graphene and other atomically thin 2D materials are regarded as highly promising
membrane materials for high‐performance gas separations due to their atomic thickness …
membrane materials for high‐performance gas separations due to their atomic thickness …
Constructing low-resistance and high-selectivity transport multi-channels in mixed matrix membranes for efficient CO2 separation
Abstract Conventional two-dimensional (2D) fillers in membranes have undesirable gas
transport resistance owing to their interfacial barriers. In this work, 2D microporous carbon …
transport resistance owing to their interfacial barriers. In this work, 2D microporous carbon …
Advancing molecular sieving via Å-scale pore tuning in bottom-up graphene synthesis
Porous graphene films are attractive as a gas separation membrane given that the selective
layer can be just one atom thick, allowing high-flux separation. A favorable aspect of porous …
layer can be just one atom thick, allowing high-flux separation. A favorable aspect of porous …
Direct chemical vapor deposition synthesis of porous single‐layer graphene membranes with high gas permeances and selectivities
Single‐layer graphene containing molecular‐sized in‐plane pores is regarded as a
promising membrane material for high‐performance gas separations due to its atomic …
promising membrane material for high‐performance gas separations due to its atomic …
A review of two-dimensional porous graphene with in-plane pores: pore construction and membrane applications
Porous graphene (PG) nanosheets have become one of the superstars in the graphene
material family due to their diverse pore structures and unique properties. Their most …
material family due to their diverse pore structures and unique properties. Their most …