The iron and steel industry is a dominant carbon emission source in China. CCUS is an
important potential technology for large-scale carbon reduction. However, due to the …

Background Nanofillers in food packaging materials have gained significant attention in
recent years due to their ability to improve various properties such as barrier properties …

Catalytic solvent regeneration has attracted broad interest owing to its potential to reduce
energy consumption in CO2 separation, enabling industry to achieve emission reduction …

Recently, the development of efficient solid acid catalysts to promote the CO2 desorption
rate while reducing energy consumption has attracted much attention. In this work, low-cost …

The extensive heat duty of solvent regeneration has significantly hampered the industrial
application of amine-based CO 2 capture technology. Catalytic CO 2 desorption with solid …

Catalytic amine regeneration has emerged as a promising technique for accelerating CO 2
desorption from aqueous amine solutions at temperatures≤ 100 ⁰C, to ultimately reduce …

Catalyst-facilitated amine regeneration provides exciting new opportunities to fulfill the Paris
Climate Accord by developing an energy-efficient and economically feasible CO2 capture …

One of the main challenges limiting the widespread industrial use of absorbent-based CO 2
capture is the energy intensive solvent regeneration, due to poor CO 2 desorption kinetics …

The use of catalysts to promote sorbent regeneration is currently considered an effective
method to reduce the energy required in CO 2 capture processes. Aiming at identifying …

New solvents are considered to be one of the effective methods to facilitate the reaction rate
and lower the reaction energy barrier. However, the common method to develop a new …