Microporous metal-organic framework materials for gas separation
Gas separation is a very important industrial process for manufacturing chemicals, fuels,
plastics, and polymers but is also energy intensive through the traditional cryogenic …
plastics, and polymers but is also energy intensive through the traditional cryogenic …
Water-stable metal–organic frameworks (MOFs): rational construction and carbon dioxide capture
C Xiao, J Tian, Q Chen, M Hong - Chemical Science, 2024 - pubs.rsc.org
Metal–organic frameworks (MOFs) are considered to be a promising porous material due to
their excellent porosity and chemical tailorability. However, due to the relatively weak …
their excellent porosity and chemical tailorability. However, due to the relatively weak …
Zeolites as Selective Adsorbents for CO2 Separation
DG Boer, J Langerak… - ACS Applied Energy …, 2023 - ACS Publications
Zeolites are a very versatile class of materials that can display selective CO2 adsorption
behavior and thus find applications in carbon capture, storage, and utilization (CCSU). In …
behavior and thus find applications in carbon capture, storage, and utilization (CCSU). In …
A MOF‐based Ultra‐Strong Acetylene Nano‐trap for Highly Efficient C2H2/CO2 Separation
Porous materials with open metal sites have been investigated to separate various gas
mixtures. However, open metal sites show the limitation in the separation of some …
mixtures. However, open metal sites show the limitation in the separation of some …
Metal–organic frameworks for separation
Separation is an important industrial step with critical roles in the chemical, petrochemical,
pharmaceutical, and nuclear industries, as well as in many other fields. Although much …
pharmaceutical, and nuclear industries, as well as in many other fields. Although much …
CO2 Capture and Separations Using MOFs: Computational and Experimental Studies
This Review focuses on research oriented toward elucidation of the various aspects that
determine adsorption of CO2 in metal–organic frameworks and its separation from gas …
determine adsorption of CO2 in metal–organic frameworks and its separation from gas …
Metal‐organic frameworks for carbon dioxide capture and methane storage
Y Lin, C Kong, Q Zhang, L Chen - Advanced Energy Materials, 2017 - Wiley Online Library
In the global transition to a sustainable low‐carbon economy, CO2 capture and storage
technology still plays a critical role for deep emission reduction, particularly for the stationary …
technology still plays a critical role for deep emission reduction, particularly for the stationary …
Perspective of microporous metal–organic frameworks for CO 2 capture and separation
Z Zhang, ZZ Yao, S Xiang, B Chen - Energy & environmental science, 2014 - pubs.rsc.org
It is emergent to reduce carbon dioxide emissions from fossil fuel combustion and thereby
limit climate destabilization. In order to achieve the industrial scenario of CCS, there is a …
limit climate destabilization. In order to achieve the industrial scenario of CCS, there is a …
Metal–organic frameworks with precisely designed interior for carbon dioxide capture in the presence of water
The selective capture of carbon dioxide in the presence of water is an outstanding
challenge. Here, we show that the interior of IRMOF-74-III can be covalently functionalized …
challenge. Here, we show that the interior of IRMOF-74-III can be covalently functionalized …
Metal–Organic Frameworks with Target‐Specific Active Sites Switched by Photoresponsive Motifs: Efficient Adsorbents for Tailorable CO2 Capture
Photoresponsive metal–organic frameworks (PMOFs) are of interest for tailorable CO2
adsorption. However, modulation of CO2 adsorption on PMOFs is based on steric hindrance …
adsorption. However, modulation of CO2 adsorption on PMOFs is based on steric hindrance …