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

Morphology‐controlled nanomaterials such as silica play a crucial role in the development
of technologies for addressing challenges in the fields of energy, environment, and health …

The current study reports the utilization of tetraethylenepentamine (TEPA)-modified
hierarchical silica particles having bimodal meso/macroporosity for CO2 capture under …

Tetraethylenepentamine (TEPA), consisting mainly of primary and secondary amines,
exhibits a high CO2 sorption capacity; however, its poor thermal stability hampers practical …

Additive introduction based on porous amine-silica hybrid materials is one of the key
technologies to enhance the ability of CO2 capture. Hence, we first developed a one-step …

Dendritic mesoporous silica nanoparticles own three‐dimensional center‐radial channels
and hierarchical pores, which endows themselves with super‐high specific surface area …

In post‐combustion CO2 capture, waste biomass is a favourable precursor to prepare
porous carbons due to its low cost, renewability, and unique microstructures. This study …

Carbon capture and storage (CCS) is crucial in mitigating greenhouse gas emissions. Solid
adsorbents, notable for their reusability and corrosion resistance, are gaining attention in …

This dissertation focuses on organically synthesized sensors. A variety of projects were
worked on to find the best method of a selective and sensitive sensor. Findings presented in …

Carbon Dioxide (CO2) with increasing the crisis for ecology and nourishing to extinguish the
planet also known as the greenhouse gas. The power plants play the major role to the …