Membranes for CO2 capture and separation: Progress in research and development for industrial applications
Industry interest in CO 2 capture and separation has grown almost exponentially over the
past decades. This paper aims to promote membrane technology as a viable solution for this …
past decades. This paper aims to promote membrane technology as a viable solution for this …
[HTML][HTML] A comprehensive review of carbon capture science and technologies
CO 2 is one of the major anthropogenic greenhouse gases in the atmosphere contributing to
global warming (Blamey et al., 2010; Mikkelsen et al., 2010). In the last half-century, the …
global warming (Blamey et al., 2010; Mikkelsen et al., 2010). In the last half-century, the …
Progressing thin-film membrane designs for post-combustion CO 2 capture: performance or practicality?
Tremendous potential is seen in membrane technology for realizing efficient post-
combustion CO2 capture from power plant flue gas, the largest anthropogenic source of …
combustion CO2 capture from power plant flue gas, the largest anthropogenic source of …
[HTML][HTML] Nanoengineering membrane surfaces: A new paradigm for efficient CO2 capture
Thin-film composite (TFC) membranes with superior separation properties for H 2/CO 2, CO
2/N 2, and CO 2/CH 4 are of great interest for CO 2 capture. As the selective layer of the …
2/N 2, and CO 2/CH 4 are of great interest for CO 2 capture. As the selective layer of the …
Carbon Capture Membranes Based on Amorphous Polyether Nanofilms Enabled by Thickness Confinement and Interfacial Engineering
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 …
capture, and the key challenge is to fabricate defect-free selective nanofilms as thin as …
Breaking The Permeance‐Selectivity Tradeoff for Post‐Combustion Carbon Capture: A Bio‐Inspired Strategy to Form Ultrathin Hollow Fiber Membranes
Thin film composite (TFC) hollow fiber membranes with ultrathin selective layer are
desirable to maximize the gas permeance for practical applications. Herein, a bio‐inspired …
desirable to maximize the gas permeance for practical applications. Herein, a bio‐inspired …
Carbon capture technologies: A review on technology readiness level
Carbon capture options, including pre/post-combustion, oxyfuel, and chemical looping
combustion, have been noticeably exploited in recent years at various technological …
combustion, have been noticeably exploited in recent years at various technological …
Machine learning-guided discovery of polymer membranes for CO2 separation with genetic algorithm
Designing polymer membranes with high gas permeability and selectivity is a difficult multi-
task constrained problem due to the trade-off between these two properties. In this work, we …
task constrained problem due to the trade-off between these two properties. In this work, we …
[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) …
[HTML][HTML] Indispensable gutter layers in thin-film composite membranes for carbon capture
Industrial thin-film composite (TFC) membranes achieve superior gas separation properties
from high-performance selective layer materials, while the success of membrane technology …
from high-performance selective layer materials, while the success of membrane technology …