Develo** energy-efficient and environmentally friendly technologies are particularly
crucial for CO 2 separations from flue gas, natural gas, and syngas. Membranes made from …

Membrane technology for carbon capture is becoming increasingly attractive to combat the
excessive greenhouse gas emitted into the atmosphere, which involves the benefits of cost …

Imidazolium-based poly (ionic liquids)(PILs) belong to a subclass of polyelectrolytes
characterised by a combination of a series of intrinsic ionic liquids features, spatial …

Poly (ionic liquid)(PIL)-based membranes for CO2 removal attract increased interest due to
the tunability of their chemical structure and processability of polymers. In this work, the IL …

Hydroxamic acids are recognized chelators for various metals; however, using them as
functional groups on carbon nanotubes (CNTs) is rare. In this study, novel multi-walled …

Within the context of molecular simulations, one of the key force field parameters is the value
of the partial charges on different atom sites. Due to the influential role of electrostatics in the …

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

Modification of polymer matrix by hybrid fillers is a promising way to produce membranes
with excellent separation efficiency due to variations in membrane structure. High …

Abstract Design and synthesis of novel poly (ionic liquids)(PILs) containing amino groups
hold great promise in CO 2 separation fields owing to the tunability of the cation and anion …

In our prior study [Olowookere, FV; Turner, CHJ Phys. Chem. B 2023, 127 (42), 9144–9154],
we introduced a new scaling relationship to predict gas solute diffusion at challenging …