Covalent organic frameworks for CO 2 capture: from laboratory curiosity to industry implementation
H Li, A Dilipkumar, S Abubakar, D Zhao - Chemical Society Reviews, 2023 - pubs.rsc.org
CO2 concentration in the atmosphere has increased by about 40% since the 1960s. Among
various technologies available for carbon capture, adsorption and membrane processes …
various technologies available for carbon capture, adsorption and membrane processes …
Smart organic materials based on macrocycle hosts
XY Lou, S Zhang, Y Wang, YW Yang - Chemical Society Reviews, 2023 - pubs.rsc.org
Innovative design of smart organic materials is of great importance for the advancement of
modern technology. Macrocycle hosts, possessing cyclic skeletons, intrinsic cavities, and …
modern technology. Macrocycle hosts, possessing cyclic skeletons, intrinsic cavities, and …
Porous organic materials for iodine adsorption
The nuclear industry will continue to develop rapidly and produce energy in the foreseeable
future; however, it presents unique challenges regarding the disposal of released waste …
future; however, it presents unique challenges regarding the disposal of released waste …
Porous organic polymers (POPs) for environmental remediation
Modern global industrialization along with the ever-increasing growth of the population has
resulted in continuous enhancement in the discharge and accumulation of various toxic and …
resulted in continuous enhancement in the discharge and accumulation of various toxic and …
Selective Metal-Free CO2 Photoreduction in Water Using Porous Nanostructures with Internal Molecular Free Volume
The conversion of CO2 to a sole carbonaceous product using photocatalysis is a
sustainable solution for alleviating the increasing levels of CO2 emissions and reducing our …
sustainable solution for alleviating the increasing levels of CO2 emissions and reducing our …
Multifunctional Zn-N4 Catalysts for the Coupling of CO2 with Epoxides into Cyclic Carbonates
B Wang, L Wang, J Lin, C Xia, W Sun - ACS Catalysis, 2023 - ACS Publications
The catalytic conversion of greenhouse gas CO2 into valuable chemicals is a vital goal
toward carbon balance and sustainability. In recent decades, the chemical fixation of CO2 …
toward carbon balance and sustainability. In recent decades, the chemical fixation of CO2 …
Non-CO 2 greenhouse gas separation using advanced porous materials
Global warming has become a growing concern over decades, prompting numerous
research endeavours to reduce the carbon dioxide (CO2) emission, the major greenhouse …
research endeavours to reduce the carbon dioxide (CO2) emission, the major greenhouse …
Maximizing the ionic liquid content and specific surface area in hierarchically nanoporous hypercrosslinked poly (ionic liquid) s towards the efficient conversion of CO …
H Lyu, X Wang, W Sun, E Xu, Y She, A Liu, D Gao… - Green …, 2023 - pubs.rsc.org
The simultaneous achievement of large surface areas and high IL contents in porous
materials are highly beneficial for efficient carbon dioxide (CO2) capture and atmospheric …
materials are highly beneficial for efficient carbon dioxide (CO2) capture and atmospheric …
Green, General and Low‐cost Synthesis of Porous Organic Polymers in Sub‐kilogram Scale for Catalysis and CO2 Capture
Porous organic polymers (POPs) with high porosity and tunable functionalities have been
widely studied for use in gas separation, catalysis, energy conversion and energy storage …
widely studied for use in gas separation, catalysis, energy conversion and energy storage …
Impact of the crystallinity of covalent organic frameworks on photocatalytic hydrogen evolution
The design and synthesis of crystalline porous materials is a frontier research area,
especially in photo (electro) catalysis, due to their fascinating semiconducting properties. In …
especially in photo (electro) catalysis, due to their fascinating semiconducting properties. In …