Recent advances and future perspectives in carbon capture, transportation, utilization, and storage (CCTUS) technologies: A comprehensive review
Carbon capture, transport, utilization, and storage (CCTUS) technologies are widely
regarded as crucial solutions for mitigating the impacts of climate change. This review paper …
regarded as crucial solutions for mitigating the impacts of climate change. This review paper …
Challenges and opportunities in carbon capture, utilization and storage: A process systems engineering perspective
Carbon capture, utilization, and storage (CCUS) is a promising pathway to decarbonize
fossil-based power and industrial sectors and is a bridging technology for a sustainable …
fossil-based power and industrial sectors and is a bridging technology for a sustainable …
Printed graphene oxide-based membranes for gas separation and carbon capture
Graphene oxide (GO)-based separation membranes have demonstrated the great potential
to separate molecules and ions by the interlayer spacing with tunable nano-sized channels …
to separate molecules and ions by the interlayer spacing with tunable nano-sized channels …
Mixed matrix membranes for post-combustion carbon capture: From materials design to membrane engineering
Mixed matrix materials (MMMs) containing nanofillers dispersed in continuous polymer
matrices have emerged as an exciting and versatile platform to develop membranes with …
matrices have emerged as an exciting and versatile platform to develop membranes with …
Graphene oxide-melamine nanofilm composite membrane for efficient CO2 gas separation
Technologies that absorb CO 2 are essential for meeting the world's carbon–neutral and
carbon-negative goals. When compared to the traditional adsorption/absorption processes …
carbon-negative goals. When compared to the traditional adsorption/absorption processes …
Nanoconfined CO2-philic ionic liquid in laminated g-C3N4 membrane for the highly efficient separation of CO2
Z Niu, W Luo, P Mu, J Li - Separation and Purification Technology, 2022 - Elsevier
Membrane separation technology has received widespread attention in the field of gas
separation because of small footprint, convenient operation and low energy consumption …
separation because of small footprint, convenient operation and low energy consumption …
Microwave regeneration and thermal and oxidative stability of imidazolium cyanopyrrolide ionic liquid for direct air capture of carbon dioxide
Understanding the oxidative and thermal degradation of CO2 sorbents is essential for
assessing long‐term sorbent stability in direct air capture (DAC). The potential degradation …
assessing long‐term sorbent stability in direct air capture (DAC). The potential degradation …
[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 …
Research progress on nanoconfined ILs in two-dimensional composite membranes for CO2 capture
W Luo, C Wang, M Jin, F Li, H Li, Z Zhang… - Separation and …, 2023 - Elsevier
Green and low-carbon is a development concept advocated by people all over the world,
and the year-on-year increase in CO 2 emissions has a tremendous impact on climate …
and the year-on-year increase in CO 2 emissions has a tremendous impact on climate …
Direct air capture of CO2: from insights into the current and emerging approaches to future opportunities
The rapid development of direct air capture (DAC) technologies has become critical in order
to remove CO2 from the atmosphere and limit global warming to a maximum of 1.5° C. In this …
to remove CO2 from the atmosphere and limit global warming to a maximum of 1.5° C. In this …