Mineral carbonation using natural minerals or industrial wastes is a safe and promising
strategy for CO 2 sequestration. Application of industrial wastes for this purpose has …

This paper reviews the historic developments and provides some perspectives of carbonate
binders. Various carbonatable materials have been used to produce carbonate binders …

Mechanical ball-milling is an effective technique to reduce particle size, increase lattice
defects, and enhance the activity of materials. After mechanical ball-milling modification, an …

Mineral carbonation is a promising CO 2 sequestration strategy that can utilize industrial
wastes to convert CO 2 into high-value CaCO 3. This review summarizes the advancements …

Herein, a facile strategy was proposed to construct efficient covalent organic frameworks
(COFs) adsorbents by grafting affinity groups linked with different lengths of carbon chains …

Liquid-solid phase change absorption has been considered a promising strategy for CO 2
capture. To achieve efficient and economic CO 2 capture in industrial-scale applications, it is …

CO 2 mineralization which involves the reaction of CO 2 with alkaline earth metal cations to
form carbonates, is a promising pathway that could be crucial for combating global warming …

CO 2 mineralization of waste gypsum not only reduces the carbon emissions of power plants
but also improves gypsum utilization by recovering high-value-added CaCO 3. However, the …

Single-step integrated CO 2 absorption and mineralization (IAM) using fly ash and mixed
amine can reduce high energy consumption of absorbent regeneration while enabling the …

The escalating issue of global warming, driven by the surge in CO 2 emissions, necessitates
innovative strategies for reducing CO 2 emissions. A novel approach is explored in this …