Global reliance on fossil fuel combustion for energy production has contributed to the rising
concentration of atmospheric CO2, creating significant global climate challenges. In this …

The global climate change caused by the continuous increase of carbon dioxide (CO 2)
emissions has seriously threatened the survival of human beings, so it is imperative to …

Efficiently capturing radioactive methyl iodide (CH3I), present at low concentrations in the
high-temperature off-gas of nuclear facilities, poses a significant challenge. Here we present …

Carbon capture, storage, and utilization (CCSU) represents an opportunity to mitigate
carbon emissions that drive global anthropogenic climate change. Promising materials for …

The new adsorption-enhanced compressed CO 2 energy storage technology uses high-
performance adsorbents to adsorb and store CO 2 in low-pressure tanks, reducing vessel …

Significant research interest has been directed towards the deployment of direct air capture
(DAC) as a net-negative CO 2 emissions technology to help limit global temperature rise to …

Environmental pollution has become a serious issue due to the rapid development of
urbanization, industrialization, and vehicle traffic. Notably, fossil fuel combustion significantly …

Efficient capture and selective separation of CO 2 is of great significance for alleviating the
greenhouse effect. However, it is still a challenge to achieve efficient, reversible and …

Although many porous materials, including metal–organic frameworks (MOFs), have been
reported to selectively adsorb C2H2 in C2H2/CO2 separation processes, CO2‐selective …

Carbon capture can mitigate point-source carbon dioxide (CO2) emissions, but hurdles
remain that impede the widespread adoption of amine-based technologies. Capturing CO2 …