The carbon dioxide challenge is one of the most pressing problems facing our planet. Each
stage in the carbon cycle—capture, regeneration and conversion—has its own materials …

This review focuses on important stability issues facing amine-functionalized CO2
adsorbents, including amine-grafted and amine-impregnated silicas, zeolites, metal–organic …

A variety of amine-impregnated porous solid sorbents for direct air capture (DAC) of CO2
have been developed, yet the effect of amine-solid support interactions on the CO2 …

Owing to their three dimensionality and high porosity, metal-organic frameworks (MOFs)
have attracted the attention of scientists especially chemists and material engineers. The …

Global climate change ensued by the rise in atmospheric CO 2 levels is one of the greatest
challenges our planet is facing today. This worldwide distress demands technologies that …

Direct adsorption of CO2 from ambient air, also known as direct air capture (DAC), is gaining
attention as a complementary approach to processes that capture CO2 from more …

In the transition to a clean-energy future, CO2 separations will play a critical role in
mitigating current greenhouse gas emissions and facilitating conversion to cleaner-burning …

A new diamine-functionalized metal–organic framework comprised of 2, 2-dimethyl-1, 3-
diaminopropane (dmpn) appended to the Mg2+ sites lining the channels of Mg2 …

Carbon capture at fossil fuel-fired power plants is a critical strategy to mitigate anthropogenic
contributions to global warming, but widespread deployment of this technology is hindered …

The widespread deployment of carbon capture and sequestration as a climate change
mitigation strategy could be facilitated by the development of more energy-efficient …