Design strategies and advantages of metal-organic frameworks@ lignocellulose-based composite aerogel for CO2 capture: A review
J Zhang, S Wang, X Cheng, C Chen, L Zhang… - Separation and …, 2024 - Elsevier
Global warming induced by greenhouse gas emissions represents one of the most
significant challenges of our time. In response to this issue, extensive research is being …
significant challenges of our time. In response to this issue, extensive research is being …
Advancements and Challenges in Adsorption‐Based Carbon Capture Technology: From Fundamentals to Deployment
Carbon dioxide (CO2) adsorption on solid sorbents represents a promising technology for
separating carbon from different sources and mitigating anthropogenic emissions. The …
separating carbon from different sources and mitigating anthropogenic emissions. The …
Ti2C-MXene/activated carbon nanocomposite for efficient CO2 capture: Insights into thermodynamics properties
This study investigates the uniqueness and intrinsic properties of a composite material,
composed of Ti 2 CT x MXene and activated carbon (AC), for efficient adsorption of CO 2 …
composed of Ti 2 CT x MXene and activated carbon (AC), for efficient adsorption of CO 2 …
Physically activated resorcinol-formaldehyde derived carbon aerogels for enhanced hydrogen storage
Carbon aerogels have great potential as hydrogen storage materials owing to their
exceptional specific surface area, low weight, and high porosity. These characteristics …
exceptional specific surface area, low weight, and high porosity. These characteristics …
[HTML][HTML] Post-synthetic modification of UiO-66 analogue metal-organic framework as potential solid sorbent for direct air capture
Direct air capture (DAC) offers a powerful strategy to counteract climate change by reducing
the carbon dioxide levels in the air. Develo** sorbent materials capable of sucking carbon …
the carbon dioxide levels in the air. Develo** sorbent materials capable of sucking carbon …
DFT based investigations on inherent CO2 adsorption and direct dissociation capability of Ti2C and Nb2C mxenes
Transition metal carbide MXenes, specifically Ti 2 C and Nb 2 C, have been investigated for
their ability to efficiently adsorb and dissociate CO 2 using First Principles Calculations …
their ability to efficiently adsorb and dissociate CO 2 using First Principles Calculations …
Recent Progress on Porous Carbons for Carbon Capture
High emission of carbon dioxide (CO2) has caused CO2 levels to reach more than 400 ppm
in air and led to a serious climate problem. In addition, in confined spaces such as …
in air and led to a serious climate problem. In addition, in confined spaces such as …
Hydroxyl-Incorporated Microporous Polymer Comprising 3D Triptycene for Selective Capture of CO2 over N2 and CH4
The rising CO2 concentration in the atmosphere contributes significantly to global warming,
necessitating effective carbon capture techniques. Amine-based solvents are widely …
necessitating effective carbon capture techniques. Amine-based solvents are widely …
Thermally Stable and High-Surface-Area Triptycene and Phenanthroline-Based Microporous Polymer for Selective CO2 Capture over CH4 and N2
The increasing amount of CO2 in the atmosphere is recognized as a major cause of global
warming and its harmful consequences. Industrially, CO2 is captured by chemisorption …
warming and its harmful consequences. Industrially, CO2 is captured by chemisorption …
In situ synthesis of TiFSIX-3-Ni@ ZIF-7@ poly (acrylates) composite for CO2 capture from wet flue gas
C Liu, K Liu, J Liu, J **, J Mi, Y Ren, S Xu - Separation and Purification …, 2025 - Elsevier
Abstract TiFSIX-3-Ni, a hybridized ultra-microporous material, exhibiting a remarkable
uptake for low concentration CO 2 adsorption under dry condition. However, its high degree …
uptake for low concentration CO 2 adsorption under dry condition. However, its high degree …