Over the past decade, CO 2 separation and capture have become the new bandwagon for
polymer science and membrane research. This review presents the fundamentals of CO …

The escalating level of atmospheric carbon dioxide (CO 2) due to the combustion of fossil
fuels has been identified as a major contributor to climate change. CO 2 capture using …

Membrane gas separation is a promising next-generation technology for post-combustion
CO 2 capture that can significantly reduce energy consumption, instrument, and chemical …

Tremendous potential is seen in membrane technology for realizing efficient post-
combustion CO2 capture from power plant flue gas, the largest anthropogenic source of …

Reducing CO 2 emissions in the atmosphere is an urgent task to resolve serious
environmental issues including global warming. Polymer-based ultrathin film composite …

In order to impart epoxy resin (EP) with desired flame retardancy, thermal stability and
mechanical properties, a novel flame retardant HNT@ PZM@ Fe (OH) 3 with hierarchical …

Thin-film composite membranes are a leading technology for post-combustion carbon
capture, and the key challenge is to fabricate defect-free selective nanofilms as thin as …

With its high content of CO 2-philic ether oxygen groups, poly (1, 3-dioxolane)(PDXLA) has
emerged as an attractive platform to achieve excellent CO 2/N 2 separation properties for …

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) …

New polymeric blend membranes for CO 2 separation were synthesized based on insights
from molecular dynamics simulation. A molecular-level structure-property relationship in …