In order to achieve the goal of “double carbon”, CO 2 capture should be carried out in a
reasonable and efficient manner. As one of the common gas separation technologies …

MXenes are a new type of two-dimensional (2D) inorganic compound which offer high
surface area, superlative chemical stability, thermal conductivity, hydrophilicity and …

Over the past decades, fossil fuel combustion has emitted large quantities of CO 2 into the
atmosphere, resulting in global climate change. Nowadays, it's considered a feasible …

The incorporation of two-dimensional (2D) functional nanosheets in polymeric membranes
is a promising material strategy to overcome their inherent performance trade-off behavior …

Membrane gas separation technology is an energy-efficient alternative to the traditional
industrial processes for CO 2 capture towards the mitigation of global warming. To overcome …

The long‐term development of fossil energy has led to the destruction of carbon balance.
Carbon capture technology needs to be used to reduce carbon emissions before clean …

The separation of CO 2 has been recognized as a potential approach to address the impacts
of climate change resulting from the emission of flue gases into the environment. Efficient …

Carbon capture is one of the important technical means to achieve CO 2 reduction.
Recently, many efforts have been made to improve the CO 2 separation performance of …

Mixed matrix materials (MMMs) containing nanofillers dispersed in continuous polymer
matrices have emerged as an exciting and versatile platform to develop membranes with …

ZIF-67 nanoparticles were grown on ZIF-L (Zn) nanosheets by in-situ heteroepitaxial
method, resulting in ZIF-67@ ZIF-L (Zn) as a charming two-dimensional (2D) nanocomposite …