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Role of Amine Structures in CO<sub>2</sub> Adsorption Performance and Stability of Amine-Modified Bimodal Porous Silica

Thanapha Numpilai, Metta Chareonpanich, Thongthai Witoon

2025ACS Omega18 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide This study provides insights into how various parameters─including amine type (DETA, TEPA, PEI), amine loading, drying conditions (duration of 0.5 versus 12 h and drying atmosphere of ambient air versus N 2 flow), and adsorption temperature─influence CO 2 capture performance using bimodal porous silica (BS) sorbents. Increasing the drying time from 0.5 to 12 h notably reduced the amine content in DETA-loaded sorbents, had a moderate effect on TEPA-loaded sorbents, and minimally affected PEI-loaded sorbents. Drying under N 2 flow accelerated amine loss in DETA-loaded sorbents but slightly improved amine retention in PEI-loaded sorbents. Adsorption kinetics described by the Avrami fractional-order model indicated internal diffusion limitations dependent upon amine type and adsorption temperature with the strongest diffusion constraints occurring in DETA-loaded sorbents, while PEI-loaded sorbents exhibited balanced adsorption dynamics. A PEI-loaded BS sorbent achieved a high initial CO 2 adsorption capacity of 122.6 mg CO 2 g –1, maintaining excellent stability with a capacity of 120.2 mg CO 2 g –1 after ten cycles. Furthermore, the PEI-loaded BS sorbent exhibited only minor degradation when exposed to oxygen under ambient conditions, underscoring its potential for practical, sustainable CO 2 capture applications.

Topics & Concepts

Amine gas treatingAdsorptionPorosityChemical engineeringMaterials sciencePorous mediumPolymer chemistryChemistryOrganic chemistryComposite materialEngineeringCarbon Dioxide Capture TechnologiesMembrane Separation and Gas TransportPhase Equilibria and Thermodynamics
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